PROJECT SATURN V RMIT University Aerospace Engineering & Aviation
Group Name: DYNAMIC ARCHITECTS Group Member: Danny Kwak & Jean Viljeon Tutor Name: Edward Berry
RMIT University Architecture BP250 / ARCH 1016 Technology 04
Contents: Project Saturn V Perspectives + Street Views + Interior Views Minutes + Week 1-12 Appendix + Wall Materials 01 + Modular Curtain Wall Materials + Wall Materials 02 + Floor Materials 01 + Floor Materials 02 + Ceiling Materials 01 + Ceiling Materials 02 + Tension Wire & Rod Brace Types + Beam & Wire + Lighting Materials 01 + Lighting Materials 02 + Workshop Furnitures + Bike Equipments + Toilet Materials 01 + Toilet Materials 02 + HVAC Site analysis + Location Study Site Condition Photo Study Surrounding Condition + Tree Study + Council Maps + Shadow Study + + BCA Study + RMIT Aerospace Engineering & Aviation Current Situation Equipment + Case Study Weekly Works + Design + Layout + Core + Façade + Mid Sem presentation
[East South] Bouverie St
[North East] Queensberry St & Bouverie St
[North West] Queensberry St
Ground Floor Cafe
Rooftop Garden
Hanging Box
Vertical Wind Tunnel
Minutes + + + + + + + + + + + +
Week 01 Week 02 Week 03 Week 04 Week 05 Week 06 Week 07 Week 08 Week 09 Week 10 Week 11 Week 12
Building 100 Victoria St, Carlton VIC 3000 (T) +61 03 9999 8888 (F) +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
Building 100 Victoria St, Carlton VIC 3000 (T) +61 03 9999 8888 (F) +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
DYNAMIC ARCHITECTS
Meeting Minutes Date held Time Location
Meeting Minutes
27/02/18 19:00 100.06.001
Subject Project Job no.
Designer Meeting Project Saturn V 001
Date held Time Location
Invitees
06/03/18 19:00 100.06.001
Subject Project Job no.
Designer Meeting Project Saturn V 001
Invitees
Name Danny Kwak Jean Viljeon
Company DYNAMIC ARCHITECTS DYNAMIC ARCHITECTS
Contact 0412 345 678 0412 234 567
Name Danny Kwak Jean Viljeon
Week 01 Item
DYNAMIC ARCHITECTS
Company DYNAMIC ARCHITECTS
Contact 0412 345 678 0412 234 567
DYNAMIC ARCHITECTS
Week 02 Site Analysis 1. Return to site to take photos and measurement. 2. Take note of viewing options, North/East/South/West. 3. Solar analysis, rough estimates on surrounding building heights. 4. 5. 6. Research 1. Research education building types, 4 studies each 2. Revit 1.
Action J.V J.V J.V D.K D.K D.k
J.V & D.K J.V
D.K
Item
Building Study 1. Analyise 3 types of building cores take notes on pro/con on each 2. 3 types of layouts of core onto the site with simple extrusion 3. 4. Study 4 types of building form variations, materials and function Portfolio 1.
Contact 1. Contact Dean of Aerospace Engineering & Aviation at RMIT
Action J.V & D.K J.V & D.K J.V & D.K J.V & D.K
J.V D.K
Building 100 Victoria St, Carlton VIC 3000 (T) +61 03 9999 8888 (F) +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
Building 100 Victoria St, Carlton VIC 3000 (T) +61 03 9999 8888 (F) +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
DYNAMIC ARCHITECTS
Meeting Minutes Date held Time Location
Meeting Minutes
13/03/18 19:00 100.06.001
Subject Project Job no.
Designer Meeting Project Saturn V 001
Date held Time Location
Invitees
20/03/18 19:00 100.06.001
Subject Project Job no.
Designer Meeting Project Saturn V 001
Invitees
Name Danny Kwak Jean Viljeon
Company DYNAMIC ARCHITECTS DYNAMIC ARCHITECTS
Contact 0412 345 678 0412 234 567
Name Danny Kwak Jean Viljeon
Week 03 Item
DYNAMIC ARCHITECTS
Company DYNAMIC ARCHITECTS DYNAMIC ARCHITECTS
Contact 0412 345 678 0412 234 567
Week 04 BCA 1. Study BCA and make notes on information relating to class 9B Bicycle 1. Revit 1. Setup Title Sheet 2. Make Title Box, vertical and horizontal versions 3. Make Company Logo
Action J.V
D.K D.K D.K D.K
Item
Building Study Action 1. Toilet variations, dimensions and position depending on function J.V & D.K J.V & D.K 2. Programme types and layout variations, pro/con on each J.V & D.K 3. 4. Precedent study and appliaction on lecture Theatre J.V J.V 5. Precedent study and appliaction on research lab facilities 6. Precedent study and appliaction on modular/glaze facility J.V 7. D.K 8. Precedent study and appliaction on classrooms D.K J.V 9. Precedent study and appliaction on research lab layouts 10. Precedent study and appliaction on brick facade typology D.K 11. Precedent study and appliaction on indoor cafe layout D.K Revit D.K 1. Floor Plan: Basement Draft D.K 2. J.V 3. D.K 4. Facade: Brick facade Draft J.V 5. Facade: Glass Modular Draft
Building 100 Victoria St, Carlton VIC 3000 (T) +61 03 9999 8888 (F) +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
Building 100 Victoria St, Carlton VIC 3000 (T) +61 03 9999 8888 (F) +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
DYNAMIC ARCHITECTS
Meeting Minutes Date held Time Location
Meeting Minutes
27/03/18 19:00 100.06.001
Subject Project Job no.
Designer Meeting Project Saturn V 001
Date held Time Location
Invitees
03/04/18 19:00 100.06.001
Subject Project Job no.
Designer Meeting Project Saturn V 001
Invitees
Name Danny Kwak Jean Viljeon
Company DYNAMIC ARCHITECTS
Contact 0412 345 678 0412 234 567
DYNAMIC ARCHITECTS
Name Danny Kwak Jean Viljeon
Week 05 Item
DYNAMIC ARCHITECTS
Company DYNAMIC ARCHITECTS DYNAMIC ARCHITECTS
Contact 0412 345 678 0412 234 567
Week 06 Building Study 1. FT03 Glass Floor precedent study and design in project 2. Revit 1. 2. 3. 4. 5. 6. 7. 8. RCP Level 01 draft for Issue 02 9. 10. Floor Plan: Roof draft for Issue 02 11. Section 1:20 draft for Issue 02 12.
Action D.K J.V J.V & D.K J.V & D.K J.V & D.K J.V & D.K J.V & D.K J.V & D.K J.V & D.K J.V & D.K J.V & D.K J.V & D.K J.V & D.K J.V & D.K
Item
Revit 1. Create schedules: Wall, Door, Floor 2. Title sheet 3D model layout 3. Finish Site Plan page 4. Basement change stairs location 5. 6. Add basic furnitures to cafe, classrooms, refuse store, toilet 7. Design the canterlevered boxes 8. Floor Plan: Rooftop to be Issued 9. Elevations: Fix detail levels 10. Sections: Change scale to 1:100 and add 1:20 11. Construction Details: Identify locations and objects to detail 12. Central Stairs: Draft for Issue
Action D.K D.K D.K D.K D.K J.V J.V D.K J.V J.V D.K & J.V J.V
Building 100 Victoria St, Carlton VIC 3000 (T) +61 03 9999 8888 (F) +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
Building 100 Victoria St, Carlton VIC 3000 (T) +61 03 9999 8888 (F) +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
DYNAMIC ARCHITECTS
Meeting Minutes Date held Time Location
Meeting Minutes
10/04/18 19:00 100.06.001
Subject Project Job no.
Designer Meeting Project Saturn V 001
Date held Time Location
Invitees
17/04/18 19:00 100.06.001
Subject Project Job no.
Designer Meeting Project Saturn V 001
Invitees
Name Danny Kwak Jean Viljeon
Company DYNAMIC ARCHITECTS DYNAMIC ARCHITECTS
Contact 0412 345 678 0412 234 567
Name Danny Kwak Jean Viljeon
Week 07 Item
DYNAMIC ARCHITECTS
Company DYNAMIC ARCHITECTS DYNAMIC ARCHITECTS
Contact 0412 345 678 0412 234 567
Week 08 Revit 1. 2. 3. Central Stairs: Add tension wire balustrade 4. FT03: Add steel beams to hold the glass as well as tension wires 5. 6. Detail Constuction: draft on WT01 7. 8. Floor Plan Basement: remove bike stairs and rearrange 9. Revision: change from ABC into 123 10. 11. Add dash lines for Void space
Action J.V J.V J.V D.K D.K J.V D.K D.K D.K D.K D.K
Item
Revit 1. Construction Detail: FT03 complete for issue 2. Schedule: add detail lines and hatching 3. Brick veneer edging detail 4. Change lecture room layout 5. 6. Amenities Elevations: Draft layout 7. Roof design change material into brick veneer and add beams 8. 9. Change 400x400 concrete column position 10. 11. Central Stairs: draft for issue including detailing
Action D.K D.K D.K J.V D.K D.K D.K D.K J.V J.V J.V
Building 100 Victoria St, Carlton VIC 3000 (T) +61 03 9999 8888 (F) +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
Building 100 Victoria St, Carlton VIC 3000 (T) +61 03 9999 8888 (F) +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
DYNAMIC ARCHITECTS
Meeting Minutes
Meeting Minutes Date held Time Location
24/04/18 19:00 100.06.001
Subject Project Job no.
Date held Time Location
Designer Meeting Project Saturn V 001
08/05/18 19:00 100.06.001
Subject Project Job no.
Designer Meeting Project Saturn V 001
Invitees
Invitees Name Danny Kwak Jean Viljeon
Company DYNAMIC ARCHITECTS DYNAMIC ARCHITECTS
Name Danny Kwak Jean Viljeon
Contact 0412 345 678 0412 234 567
Revit 1. 2. 3. Amenities Elevation: cut drawings to ceiling zones 4. Construction Details: remove Concrete capical 5. 6. Floor Plan: Lvl 7 PHD Room draft design for issue 7. Floor Plan: Lvl 8,9 Lounch Room draft design for issue 8. Floor Plan Lvl 10 Rooftop Garden draft design for issue 9. Lighting on walls to reposition 10. Timber truss feature ceiling under hanging box 11. Re-create stairs + Balustrade on new combined Revit File 12. Fix Floor/Ceiling under Lecture Room
Company DYNAMIC ARCHITECTS DYNAMIC ARCHITECTS
Contact 0412 345 678 0412 234 567
Week 10
Week 09 Item
DYNAMIC ARCHITECTS
Action D.K D.K D.K D.K D.K D.K D.K D.K D.K J.V J.V J.V
Item
Revit 1. 2. Flip detail sections + annotate drawings on WT01 3. 4. RCP Lvl 02: Draft for issue 5. Amenities Elevation: Fix toilet wall height 6. Amenities Plan: Fix toilet walls to connect to WT01 7. 8. Floor Plans: add furnitures to workshop and lounge areas 9. 10. 11.
Action J.V J.V J.V J.V D.K D.K D.K D.K D.K D.K J.V
Building 100 Victoria St, Carlton VIC 3000 (T) +61 03 9999 8888 (F) +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
Building 100 Victoria St, Carlton VIC 3000 (T) +61 03 9999 8888 (F) +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
DYNAMIC ARCHITECTS
Meeting Minutes Date held Time Location
Meeting Minutes
15/05/18 19:00 100.06.001
Subject Project Job no.
Designer Meeting Project Saturn V 001
Date held Time Location
Invitees
22/05/18 19:00 100.06.001
Subject Project Job no.
Designer Meeting Project Saturn V 001
Invitees
Name Danny Kwak Jean Viljeon
Company DYNAMIC ARCHITECTS DYNAMIC ARCHITECTS
Contact 0412 345 678 0412 234 567
Name Danny Kwak Jean Viljeon
Week 11 Item
DYNAMIC ARCHITECTS
Company DYNAMIC ARCHITECTS DYNAMIC ARCHITECTS
Contact 0412 345 678 0412 234 567
Week 12 Revit 1. Construction Detail: Stairs complete for issue 2. Construction Detail: WT01 complete for issue 3. RCP Lvl 01: Finalise with annotation 4. Elevations: add codings for WT01 into CW## 5. Special Drawing: Finalise for issue 6. Review each pages and add notes and change lineweight Appendix 1. Create Draft copy of Appendix 2. Include Materials for WT,FT,Toilet furnitures 3. Combine all Portfolio work for Mid Sempresentation
Action J.V J.V J.V J.V J.V D.K D.K D.K D.K
Item
Revit 1. Review and complete each pages adding annotations 2. Manipulate lineweight to create hierarchy 3. Appendix 1. Complete materials pages 2. Finalise annotations on each pages 3. Add renders to pages
Action D.K & J.V D.K & J.V D.K & J.V D.K & J.V D.K & J.V D.K & J.V
Materials Research + + + + + + + + + + + + + + + +
Wall Materials 01 Modular Curtain Wall Materials Wall Materials 02 Floor Materials 01 Floor Materials 02 Ceiling Materials 01 Ceiling Materials 02 Tension Wire & Rod Brace Types Beam & Wire Lighting Materials 01 Lighting Materials 02 Workshop Furnitures Bike Equipments Toilet Materials 01 Toilet Materials 02 HVAC
Modular Curtain System
Brick Veneer
Block Veneer
Curtain wall
Modular Curtain Wall Facade
Hawthorn red bricks
Scoria Concrete Blocks 100mm Fire Series (SA)
U-Max 150 Front Double Glazed - 34mm Pocket
Wall Materials 01
Silk-Screen Glazed Panels
Tinted Glazing
Silk-Screen IGU Double Glaze Panel
Rose and Blue Tinted IGU Double Glaze Panel
Aluminium Framing
Composite Aluminium Panel AODELI FR Aluminium Panel (FR)
Modular Curtain Wall Materials
Concrete Wall with mortar
Toilet Partition
Timber Stud Wall
Timber Feature
32mm Laminated Board with 18mm divisions
90mm Timber stud frame 5mm Gypsum plaster board
Vertical open-joint timber cladding
Wall Materials 02
300mm Concrete
150mm Concrete
Glass Floor
Hollowcore: 300mm Precast
Hollowcore: 150mm Precast
Jockimo: Glass Panel Panel 01: 30mm SGS Glass [Cover] Penel 02 & 03: 50mm SGS Glass [Load Bearing]
Floor Material 01
Toilet Tile
Cafe Tile
Classroom Vinyl
Novoceram: OZ Froid 60x60mm
Novoceram: Petitot Sepia 60x120mm
Forbo: Sphera Element 5mm thickness
Floor Material 02
Plaster Panel
Timber Panel
Toilet Ceiling
Armstrong: Ultima +OP 60x120mm
Laudescher: Lauder Linea 4.2.1
Armstrong: Mineral Fiber Plancks
Ceiling Material 01
Cafe Ceiling Innowood: Innoceil
Exposed Floor mortar
Timber Truss
Primer + Undercoat + minimum 2 coats solvent borne or
Ceiling Material 02
Structural Beam Types Concreter Beam
SHS Steel Beam SHS - Square Hollow Sections 150X80X9. Intrumescent coated
Cellular I-Beam
I-Beam
Steel. LB460X28.3. Intrumescent coated
Intrumescent coated
Tension Cable (NCC approved)
Rod Brace
(NCC approved)
Tension Wire & Rod Brace Types
Recessed Light
Pendant Light
Sconce Lamp
Lights2you: 12w DL5530 316 Stainless Steel LED Downlight
Mica Lighting: Jet100 LED Pendant Light
Weplight: Lupe 60 Wall
Lighting Material 01
WAll Lamp
Cult Design: BL7 Wall Lamp
Louver Light
Unilux Profile Surface Mount Low profile, surface mounted T8 troffer module.
Specification Body manufactured in steel with durable white powder coat finish Body is fixed to the ceiling by hidden screw fixings through back of body Electrical components located under side mounted metal gear cover for electrical safety Single piece, non-discolouring, high impact, injection moulded acrylic diffuser (except 18W versions) Diffuser is held by internal tensile steel spring easy to remove for re-lamping Body and diffuser fit closely together and have no horizontal surfaces, thereby preventing the ingress of dust and dirt Terminal block accepts 2 x 2.5mm cable termination Lamps excluded to allow for a choice of colours at time of ordering Integral electronic control gear
Product Codes
Quick Specification
Code
Version
Dim (mm)
Mass (kg)
SEP218EL
2 x 18W T8 EL
615 x 277 x 100
3.0
SEP236EL
2 x 36W T8 EL
1265 x 277 x 100
6.2
SEP336EL
3 x 36W T8 EL
1265 x 277 x 100
6.4
Pierlite surface mounted maximum glare control T8/T5 low profile system, robust polycarbonate hinges, injection moulded acrylic diffuser.
Design Application Food preparation areas, schools, TAFE, universities, libraries, retail stores, hospitals, general office areas and utility rooms.
9.4kg
Max Dim (mm) 1650 x 277 x 100 PDF Prepared: 19.05.2018 14:05pm, Last page update: Nov 2017
Lighting Material 02
Vertical Wind Tunnel
Flight Simulator
Fabrication Machine
Workshop Furnitures
Bike Rack
Bike Pump
Bike Workstand
Secura Bike: Dual Height 10 Bike Parking CBR10GS
Secura Bike: Bicycle Pumping Station BPS01
Secura Bike: Bicycle Repair Station BBRS02
Bike Furnitures
Toilet Bowl
Male Urinal
Hand Basin
Handrail
Caroma: Liano Easy Height Invisi ii
Caroma: Integra Urina
Caroma: Moon 500 Wall Basin 1TH White
RBA: 90LH +450 Straight Grab Set
Toilet Materials
Hand Dryer
Mirror
Paper Dispenser
Rubbish Dispenser
Dyson: Airblade DB FT
ASI: Inter-Lock Framed Mirror
ASI: Dobule Toilet Paper Holder With Hood
ASI: Semi-Recessed Paper Towl Dispenser
Toilet Materials
HVAC 01
HVAC 02
Johnson Controls: Series 100
Johnson Controls: Series 40
HVAC Units
Site Analysis +
+ + + + + + +
Location Study Site Condition Photo Study Surrounding Condition Tree Study Council Maps Shadow Study  BCA Study RMIT Aerospace Engineering & Aviation Current Situation Equipment Case Study
Site Condition
QUEENSBERRY ST
R BE
NS
E UE
Q
3D view of the site: corner of Queensberry St and Bouverie St
Site address: 81/89 Bouverie St, Carlton VIC 3053 Area: 460m2 Perimeter: 85m
Immediate site surrounding
BOUVERY ST
ST
LANSDOWNE PL
IE
ER
UV
BO RY
ST
Photo Study Street and context views of site. The city provides a backdrop for the site, while the proposed building may function as a welcome sign to RMIT from the North. Yellow massing suggests how building sits within site.
Heritage buildings run along Queensbury street. The brickwork links neighbouring building along the street scape. Brickwork is characteristic of many Melbourne inner suburbs building, creating a record of a point in time. Does brickwork form part of the facade in order to integrate it into the street front?
Surrounding Condition
View to the east
View to the south
View to the north
View to the west
Given site positioning on the border of Carlton and the CBD’s northern edge, their is ample opportunity to capture views along of immediate high rises.
Views best from North, East and West
ST RY BAR
Tree Study
25
Ulmus x hollandica: ELM 24
Platanus x acerifolia: LONDON PLANES QUEENS
Angophora costata: SMOOTHBARKED APPLE
TER ST
ST
Corymbia ficifolia: RED FLOWERING GUM ON ST
BOUVER
IE ST
LEICES
KE BER
LEY
ST
BERRY
SWANST
Quercus rubra: RED OAK
Eucalyptus leucoxylon: YELLOW GUM
Melia Azedarach: WHITE CEDAR 30
ABE
TH
ST
28
Z ELE
25
26
Celtis australis: EUROPEAN NETTLE TREE
27
24
Flindersia australis: AUSTRALIAN TEAK
23
Site location in broader context
22
Ulmus x hollandica
Platanus x acerifolia
Angophora costata
Â
Quercus rubra
Eucalyptus leucoxylon
Melia Azedarach
Celtis australis
Flindersia australis
Cou rts
ST
ST GARTON DR
ST
il LYGON
ST
ST
ST
ST
ST
ST
DRUMMOND
ST
ST CHARLES DAVID
il Counc
LA
POWELL
STATION
ST
PL
PL
WATSON JIMMY LA
COCHRANE
LA
TESORIERO
SUTTON
PL ELGIN
PL
UNION
ST
ST
City
BARRUP ST
CANNING
Yarra
ST
ST
LA
PL
HYAM
PL
LYGON
PL
RATHDOWNE
RATHDOWNE
PL
DRUMMOND
DORRIT
LYGON
LYGON
PL
ST
GRATTAN
ST
ST
LA
LA MAMA
CARDIGAN
SWANSTON ST
ORMOND
PL
RUSH
PL
RODNEY
PL
ST
CARDIGAN
MISSION
LITTLE
DESHALL PL
OWNE ST
UMMOND ST
CARDIGAN ST
NICHOLSON ST
PL
HUDSON PL
ELM TREE
LYGON
ST
RATHDOWNE
DRUMMOND
PL
CARDIGAN
LIT. QUEENSBERRY LA QUEENSBURY
TCE
CARDIGAN
ORR
GON
SWANSTON ST
TCE
CARDIGAN
WANSTON
ST
PL
MAP No 5PO
Design and Development Zone - Design and Development Schedule 61 Area 4.1+4.2
MAP No 5HO
Pond
NICHOLSON
Pond
AMENDMENT C198
il Counc City Yarra
STATION BARRUP ST
CANNING
PL
RATHDOWNE
RATHDOWNE
CARLTON GARDENS
ST
PL
HUDSON PL
ELM TREE
RATHDOWNE OWNE ST
City Yarra
PRINCES PARK PL
ST
ST
PL
BARKLY
LANSDOWNE
PL
BOUVERIE
LEICESTER
ST CHARLES ST DAVID
SUTTON
PL
ORMOND
PL
ST
ST
ST
DRUMMOND
DRUMMOND
ST
LA
N BUILDING
Printed: 8/10/2015
PL
RODNEY
MELBOURNE EXHIBITIO
ST
ST
ST PL
COCHRANE
WATSON JIMMY LA LA
TESORIERO
ST PL
PL
ST
ST
LA
PL
LA MAMA
LYGON
LYGON
DORRIT
MISSION
PL
DRUMMOND DESHALL PL
ORR
11
GROSVENOR
City Yarra LYGON
PL
LA
POWELL
CARDIGAN PL
LYGON
PL
RUSH ST
CARDIGAN LITTLE
CARDIGAN ST
ST
PL
PL
* This map should be read in conjunction with additional Planning Overlay Maps (if applicable) as indicated on the INDEX TO MAPS.
TCE
CARDIGAN
WANSTON
ST
ST
ST
ST
10
9
DRUMMOND
* A complete list of zones and other overlays is in the written part of this scheme. M
8
D
ST
ST
ST
ST
7
VICTORIA
IEVERS
EARL
5
PL
HYAM
GRATTAN PL
6
ST
PL
2
4
ALLISON LA State of Victoria
3
c
WI
Y
LL
YOUNG
LYGON
TCE
IE
ESSEX
PL
GON
PL
CARDIGAN
BOUVER
SWANSTON
PL
BOUVERIE
LEICESTER
PL
ALMA
EAST
FINLAY
MAGENTA PL
ST
CORNELL
CARDIGAN
LANSDOWNE
ST
LT. COBDEN
PL
ST
LIT. QUEENSBERRY LA QUEENSBURY
ST
PL
GIBBONS PL LA
MONAHA N
PL
ARGYLE PL
ST
PL
PL
PL
1
S
State School
INDEX TO ADJOINING MAPS
ST
PL
ST
BARKLY
LINCOLN
ARGYLE PL SOUTH
TCE
CAPEL
KELVIN
ST
ST
ST.GEORGES R.C. SCHOOL
PELHAM
LA
IEVERS
CARLTON
ST
ST
CANADA
LINCOLN SQ SOUTH
PEEL
WARWICK
ST
ST
ST D FO R BE D
PL
RRY
ST
St. Mary's
Church except This publication is copyright. No part may be reproduced by any processR.C. West provisions of the Copyright Act. in accordance with the Melbourne
SAN MAR L
EADE
ST
UNION
ELGIN
SWANSTON
PL
ST
MALVINA
BARRY
BERKLEY
O KW
ST
ST
ST
ST
ELIZABETH
ST
PL D R FO BE D
O D
EC R W
BL AC
ST ST
HOWARD
PRINCESS
ST
ST
ST
ST PL
FITZGIBBON
ST
PL
PL
KY N
AM TH O H
ST
LA
JACOBYS PL
PEARSON
PL
CHETWYND
LEVESON
LT. LEVESO N
ERROL
LA
LA
ST
UMMOND ST
ST E SID K
ST
PA R
LA
S H
LE
IG
C
H
N BU
S R VIL LIE
ST
LA
COOKS
CHETWYND
PL
LANCASHIRE
PELHAM
Heritage Buildings surrounding the site - VHR H2325: Carlton Tram Substation - VHR H0970: Former Primary School - VHR H2138: Cast Iron Urinal - H7822-0973: Former Carlton & United Brewery Site S
ST
ST ST
ROYAL
U M T R O U C AR H
CO UR TN PL EY
ST
LA LA
CALLAHANS
LA
FALSHAMS
WYLIES LA LA
PL
QUEENS BERRY
MATTINGLYS
ST
CURZON
ST
GRACIE LA
HOWARD
OWEN
SARTORI
O'CONNE
ST
ST UNION
ELM PL
LIT LOTHIAN
POST OFFICE
ST
Y PH R
HAINES LA
LA
W
EIR S
KE R
AR H
ST ISAAC'S
ST
ABBOTSFOR D
ST. STH
ST
LITTLE CURZON
PL
Y KL
CARLTON
MURCHISO N
PL
VICTORIA
MOSS
QUEENSBE
PL
ST
ST
BLAIRS PL
CAPEL
LT HOWARD ST
ST
PL Y RKL BA
AMENDMENT C196
Pond
ST
TRAFALGAR
GARDINER
PL
ST
LE
ST
L
ST
RAGLAN ERROL
TT
LT.ERRO
PL
LI
R BA
PL
ST
ARGYLE PL NORTH
PELHAM
CARLOW
ST
SOUTH
PL
RRY
ATKIN
st
NORTH
SQ
LEICESTER
ST
ABBOTSFORD
ST
PA R
K
ST
ST
LA
AR LA TS
LA
STE
W
HARDWICK
ABBOTSFO RD
LOTHIAN ST ST
ST NTH
ST NTH LIT LOTHIAN
LITTLE LOTHIAN
ST GH ST NTH
LINCOLN
VICTORIA
PL
LITTLE DRYBUR
PELHAM
PL
PL
TCE
PL SCOTTS
BEARD
GRATTAN LA
UNIVERSITY PL REGISTR Y LA
Pond
STH
ST
CUMBERLAND
CURZON
ST
ST
ON
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Printed: 12/10/2015
GARDENS
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* This map should be read in conjunction with additional Planning Overlay Maps (if applicable) as indicated on the INDEX TO MAPS.
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* A complete list of zones and other overlays is in the written part of this scheme.
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* A complete list of zones and other overlays is in the written part of this scheme.
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* This map should be read in conjunction with additional Planning Overlay Maps (if applicable) as indicated on the INDEX TO MAPS.
TCE
WANSTON
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Printed: 8/10/2015
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in accordance with theMelbourne provisions of the Copyright Act.
N
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PL CARLTO
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INDEX TO ADJOINING MAPS
SARTOR I
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O'CONNELL
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CANAD A
LINCOLN SQ SOUT H
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UNION
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LIT LOTHIAN
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LA
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Parking Overlay - Precinct 1 Parking Overlay - Precinct 12
PO1
CRAWFORD OVAL
MACARTHUR RD
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MELBOURNE
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General Residential Zone Schedule 2
CCZ6
MELBOURNE GENERAL CEMETERY
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General Residential Zone Schedule 1
GRZ2
COLLEGE
ST
NO
GRZ1
CCZ5
COLLEGE
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UNIVERSITY
Public Use Zone - Transport Road Zone - Category 1
ST
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Residential
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Public Use Zone - Other Public Use
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PUZ7
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MACARTHUR RD
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Whitley College
AVENUE
PUZ3
Overlays
Brens Oval
BR
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State
Public Use Zone - Education Public Use Zone - Health And Community
PUZ2
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PUZ5
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Commercial 1 Zone
PPRZ
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MACPHERS ON
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Tennis
Public Land PRINCES
MELBOURNE
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C1Z
LEONARD
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TREACY
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Commercial Whitley College
RD
WALKER
COLLEGE
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Brens Oval
MACARTHU R
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State Hockey Centre
Oval
COLLEGE
MACPHERS ON
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Cricket Ground
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Tennis
G.Smith
LA
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LA
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WALKER TREACY
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MELBOURNE ZOOLOGICAL GARDENS
PARKING OVERLAY
Carlton
RIDLEY
aw Field
COLLEGE
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Cricket Ground
COLLEGE
AV
COURSE
GOLF
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MELBOURNE ZOOLOGICAL GARDENS
MELBOURNE ZOOLOGICAL GARDENS
ZONES
Carlton
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Council Study
25
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25
25
24
24
28
30
26
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24 23
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22
Heavy
Medium
Light
Buildings
Site
Shadow Study Summer Solstice
Summer Solstice Winter Solstice
Autumn Solstice
Spring Solstice
Winter Solstice
Autumn Solstice
Spring Solstice
9 am
9 am
12 pm 12 pm
3 pm 3 pm
6 pm 6 pm
Overlay AM Overlay
Overlay PM
Solar study on proposed building site. Shadows cast by surrounding building masses at the varying times of day during the solstices to determine areas where solar gain can be maximised and minimised. Overlay shows areas maximum solar exposure (lighter blue) and minimum solar exposure (darker blue)
Solar study on proposed building facade Shadows cast by surrounding building masses on facade. Morning sun is shown on north eastern extrusion faces. Afternoon sun is shown on north western faces
BCA Study Clause A3.2
BCA Requirement Usage Classification
Project response Class 9B:
an assembly building, including a trade workshop, laboratory or the like in a primary or secondary school, but excluding any other parts of the building that are of another Class Class 8: a laboratory, or a building in which a handicraft or process for the production, assembling, altering, repairing, packing, finishing, or cleaning of goods or produce is carried on for trade, sale, or gain.
D1.13
Building Population
D1.2
# required exits
Programme Office Labs Labs 2 (large) Classrooms (general) Classrooms (computer) Support spaces
Area (m2) 820 1255 1000 300 315 410
M2/person 10 5 50 2 25 30
Tab F2.3 AS1428.12009 15.2.8; Fig 52
Sanitary Facilities Disables Sanitary Facilities
AS28090.32015
Bicycle Facility
J1
Building Fabric
D1.2
# required exits
NLA 57 175 14 105 9 9
Class 2 to 8 buildings — In addition to any horizontal exit, not less than 2 exits must be provided from the following: (i) Each storey if the building has an effective height of more than 25 m.
(c) Basements — In addition to any horizontal exit, not less than 2 exits must be provided from any storey if egress from that storey involves a vertical rise within the building of more than 1.5 m, unless 2 (i) the floor area of the storey is not more than 50 m ; and (ii) the distance of travel from any point on the floor to a single exit is not more than 20 m.
Class 9 buildings — In addition to any horizontal exit, not less than 2 exits must be provided from the following: - Each storey if the building has a rise in storeys of more than 6 or an effective height of more than 25 m.
D1.4
Travel Distance
Class 5, 6, 7, 8 or 9 buildings: (i) no point on a floor must be more than 20 m from an exit, or a point from which travel in different directions to 2 exits is available, in which case the maximum distance to one of those exits must not exceed 40 m
Assembly buildings — In a Class 9b building other than a school or early childhood centre, the distance to one of the exits may be 60 m if: (i) the path of travel from the room concerned to that exit is through another area which is a corridor, hallway, lobby, ramp or other circulation space; and (ii) the room is smoke-separated from the circulation space by construction having an FRL of not less than 60/60/60 with every doorway in that construction protected by a tight fitting, self-closing, solid-core door not less than 35 mm thick; and (iii) the maximum distance of travel does not exceed 40 m within the room and 20 m from the doorway to the room through the
The bicycle spacing envelope is the design of a standard bicycle which allows for locking and parking movements. The dimensions of the bicycle spacing envelope are 1800mmx1200mmx500mm.
circulation space to the exit.
D2.13
Stairs Goings & Risers
See Slides
Goings and risers A stairway must have not more than 18 and not less than 2 risers in each flight; and (vii) in a Class 9b building, not more than 36 risers in consecutive flights without a change in direction of at least 30°; and (iv) risers which do not have any openings that
Enable people to: .
(i) approach the building from the road boundary and from any accessible carparking spaces associated with the building; and
.
(ii) approach the building from any accessible associated building; and
.
(iii) access work and public spaces, accommodation and facilities for personal hygiene;
would allow a 125 mm sphere to pass through between the treads
BCA Study
RMIT Aerospace Engineering & Aviation
Research is supported by excellent facilities and infrastructure, including: - A fleet of fully operational aircrafts - Advanced Manufacturing Precinct - Composites and advanced materials testing laboratories - Computer laboratories with relevant and updated software - Engine testing facilities - Flight simulators - Green Engines Research Laboratory - Industrial research wind tunnels - Simulated aircraft maintenance laboratory You will join an active research community and work with academics, peers and partner organisations who have demonstrated research success in a range of specialities, including: advanced materials aerodynamics aerospace vehicle design air traffic management systems airframe systems airworthiness aviation human factors engineering aviation logistics aviation technology avionic systems ergonomics aviation logistics maintenance and operations multi-modal transportation engineering propulsion stability and control structures sustainable aviation technologies systems engineering unmanned aerial vehicles.
— e in Engineering Associate Degre Technology
2018 ation
Vocational Educ
neering. ing a career in engi plines. d at students seek n engineering disci This course is aime ialise in one of seve It allows you to spec specialisation. an area of before choosing
entals of engineering to real-world project and undertake a engineering major ts relevant to your You’ll choose subjec t. and present a produc design, develop, majors: seven has This associate degree tronics cturing and Mecha Advanced Manufa •
the fundam Be introduced to
•
Aerospace Engine
•
Civil Engineering
ering
• •
Mechanical Engine
•
you may from this program Upon graduating of study. in a relevant field program or work
nition Professional recog
be eligible
t bachelor degree for entry into the relevan
ited by
¡ Civil Engineering rk Engineering ¡ Computer and Netwo nics Engineering ¡ Electrical and Electro ¡ Mechanical Engineering ¡ Aerospace Engineering
ited by is provisionally accred The following major ia: Engineers Austral and Mechatronics ¡ Advanced Manufacturing rship for graduate membe Graduates are eligible ia as an Engineering of Engineers Austral
y Advisory a very strong Industr This program has sed of staff The IAC is compo Committee (IAC). It provides ering organisations. from local engine the on the program and regular feedback industry. changing needs of
Career outlook
in a range of fields Graduates may work civil and structures, including aerospace, ks, electronics computer and networ s and automation, system al design, electric product nical design and mechatronics, mecha development.
Pathways
e a grade point averag Graduates who achieve teed out of 4.0 are guaran (GPA) of at least 2.0 to credit (equivalent entry with two years or of into a RMIT Bachel 192 credit points) degree program single rs) Engineering (Honou relevant to your major.
Underg
ional, of operat vibrant a range mic and ment in the dyna employ roles in ared for ng ep ni pr t an pl Ge lytical ent and ge of ana and a ran managem stry. develop industry nt. You’ll aviation indu environme ustry. s of the aviation
How to apply
nes erating ation ind ad aware ation op to the avi gain a bro iation of the avi relevant m, you’ll problems apprec this progra hensive to solve Through a compre g, and the ability and ing you kin h of skills thin of skills, giv adt th s. g a bre s of and dep d stream developin ent aspect breadth specialise uses on managem tains two stream foc tional and gram con safety. nagement includes opera The pro dling, and s ile also s and Ma han Thi wh tion t, ry. und era pilo n Op n indust cs, gro mercial ht The Aviatio across the aviatio cargo and logisti ome a com n with RMIT Flig e ll as d to bec ctio knowledg airports, as we lls require taken in conjun n the ski airlines and g can be you’ll gai vider. inin pro ere pilot tra ed wh rov Flight mercial am is ment-app d a com ting stre industry. ern n hol Pilo gov atio ady The avi alre dit. other about the ple who with any nding cre learning Cook, or tion for peo r of advanced sta h many at Point pment op yea h, throug elo pat one Training dev to eer ired car rs a career also receive up ts and des gram offe pilots can r interes This pro suit you mmercial to Co m . licence the progra es. e to tailor n electiv o be abl You’ll als and aviatio business general,
to RMIT Semester 2: Direct s/apply/direct rmit.edu.au/program
Fees tion: For local fee informa s/fees rmit.edu.au/program
Contact Info Corner 330 Swanston Street (cnr La Trobe Street) Melbourne VIC 3000 Tel. +61 3 9925 2260
snap Program Program
Year 1
070
code: BP
Year 2
Duration 3 years Full-time: available may be Part-time
Year 3
— Bachelor of Engineering (Aerospace Engineering )(Honou
rs)
In this industry-focused program you’ll gain specia list skills in the analysis, design, and operation of sophisticate d aerospace hardware and software. You’ll study a broad range of areas such as aerodyna mics, aerospace materials aerospace systems, design, and structures, dynamics and control, thermodynamics, and propulsion. Elective studies will allow you to tailor the program to suit your areas of interest career opportunities. and enhance your Sustainability issues are built in to multiple areas of the program. This increase there is increasing demand s your employability as for long-term sustaina ble engineering solutions in this industry. When you graduate you’ll have the analytical, technolo gical, and design skills aerospace engineering. required to practise You’ll also learn to apprecia te the wider social implicatio profession. ns of the engineering You’ll have the opportun ity to design creative solutions build projects, as well through inspiring and as taking part in the Engineer sustainable design and s Without Borders Challeng focused course offered in all RMIT engineering e – a humanitariandegrees. To ensure you graduate job ready, you’ll also have an opportunity to undertak learning (industry experien e a work-integrated ce) elective.
2018
Undergraduate Program snapshot Program code: BH078
Duration Full-time: 4 years Part-time may be available
Location City and Bundoora campuse
s
Years 1 and 2 are conducte d on the City campus and years 3 and 4 on the Bundoora campus.
Aviation Industry Environment
Airport/Airline Operations
Airport Planning and Management
Airline Operations
y campus
Cit
University elective
Human Factors in Aviation
Program elective
Sustainable Aviation and the Environment
University elective
Aviation Project Management
Aviation Safety and Security Systems
Program elective
Program elective
Program elective
Program structure - Piloting stream
n mode
Selectio
Year 1
stream nagement s and Ma Operation published) 17: Not ATAR (20
Year 2
You’ll develop a breadth of skills and knowledge across the aviation industry.
stream Piloting 17: 76.10) ATAR (20
How to
Aviation Mathematics
Aircraft Systems
Aviation Strategy in the Global Context
Aviation Industry Project
While completing your studies you’ll have the opportunity to tailor your degree to your preferred area of future employment.
Introduction to Aviation
Business Computing 1
Aircraft Maintenance Management
Location
Year 3
You’ll learn the operational and managemen t aspects of airlines and airports, as well as cargo and logistics, ground handling, and safety. Introduction to Aircraft
Aviation Quality Systems
Year 1
apply
Managing the Engineering Environment Aviation Quality Systems
C are in r 1: VTA industry Semeste aviation oss the .au nals in the vtac.edu lia, but acr Professio ns y in Austra population that to RMIT , not onl of connectio growing demand r 2: Direct for to a range ly/direct Industry Semeste h a rapidly the need nections , rams/app Wit ally og con and be. glo .au/pr rnation airports gram has ions. rmit.edu travel inte airlines, This pro organisat seeks to managed n more industry ed ned and ome eve aviation bas lan bec ryll-p will we s indust anisation program, designed related org rs of the s that are Fees In all yea r lecture . aviation important g of the nals delive k on erstandin professio to embar ation: as: e your und y choose fee inform s/fees owing are to enhanc For local duates ma ram in the foll Gra eer .au/prog car s ted by industry. rmit.edu fessional tions o suppor pro era als op are or ent jects l year pro managem s s. fina ine nal tion me airl sio So ¡ or opera profes industry nagement aviation Contact ng ¡ airport ma or planni erations rtunities ¡ airport op onal oppo r to a global r business Internati Info Corne n charte to aspire atio you ton Street avi s ¡ ourage 330 Swans Street) RMIT enc al one. consulting be just a loc (cnr La Tro ¡ aviation 0 , Asia and safety career, not ope tion Eur e VIC 300 in ula urn reg ions Melbo 0 aviation rnational ¡ r organisat 9925 226 Inte tne 3 IT 1 par t. RM Tel. +6 Through rcial pilo tes, the Program United Sta ¡ comme ic Research and the academ nce and and erie g Exp nin e trai p070 Industry and 12 workplac s 6 rs the ay grams/b en of offe ro we thw tes Pa ts) (RIIERP) s for bet u.au/p am, gradua onal Pilo placement rmit.ed ting stre (Professi research dit For the pilo gree in Aviation rs of cre De abroad months. h 1.5 yea Associate to study entry wit d ties tee uni ort are guaran also opp ). There are dit points Abroad. e (144 cre Education if you hav through stream, loma of nagement ised Dip may For the ma nationally recogn a ation you ted ple ace or avi com uivalent g in aerosp points (eq erin dit ine cre have Eng 96 ng. If you for up to ndi ible sta elig ed be ociate anc a or Ass r) in adv ced Diplom or aviation, to one yea an Advan ospace aer nts g, completed poi Engineerin up to 144 credit Degree in for standing. be eligible advanced you may years) of nt to 1.5 (equivale
Career ou
ms/ad026 rmit.edu.au/progra
Managing the Engineering Environment
shot
tlook
Year 2
Year 3
Introduction to Aircraft
Aviation Industry Environment
Airport/Airline Operations Airline Operations
Aircraft Maintenance Management
Program electives
University elective
Human Factors in Aviation
Aviation Project Management
Theory to Recreational Pilot Licence
Flying to Recreational Pilot Licence
Flying to Private Pilot Licence
Aviation Safety and Security Systems
Compulsory courses
Aviation Mathematics
Sustainable Aviation and the Environment
Theory to Private Pilot Licence
Aviation Industry Project
While finishing your studies you’ll undertake your private pilot licence and commercial pilot licence.
Introduction to Aviation
Aircraft Systems
Airport Planning and Management
Please note: This is an example of the
Year 3
You’ll learn the operational and managemen t aspects of airlines and airports, as well as cargo and logistics, ground handling, and safety. You’ll also undertake your recreational pilot licence.
Introduction to Commercial Pilot Licence
Theory to Commercial Pilot Licence
Flying to Commercial Pilot Licence
University electives
program structure. Courses may change
and may not be available each semester.
Entrance requirements Successful completion of an Australian Year 12 senior secondary certificate of education or equivalent.
Prerequisites
For semester 1 intake, this can be completed through the VTAC Personal Statement online. For semester 2 intake, this can be completed through the personal statement in the Apply Direct application.
Current Year 12 prerequisites units 3 and 4 – a study score of at least 25 in mathematic s (any) and a study score of at least 25 in any English (except EAL) or at least 30 in English (EAL).
This is a gender under-represented program and awards SEAS bonus points to female applicants. To be eligible you must submit a VTAC SEAS application and select category 1.
Additional information Non-Year 12 applicants may submit additional information if they would like it to be considered. This information is designed for Australian
and New Zealand citizens and permanent
Disclaimer:
residents of Australia.
Every effort has been made to ensure the information contained in this publication is accurate and current at the date For the most up-to-date information, of printing. please refer to the RMIT University website before lodging your application. RMIT University CRICOS Provider Visit www.rmit.edu.au. Code: 00122A. RMIT Registered Training Organisation code: 3046. Prepared November 2017.
Selection mode Industry connections As an RMIT engineering student, you’ll have opportunities to engage with industry from the beginning of your degree. Through work placeme nts, industry projects, internships, seminars and events, you’ll be in contact with industry every step of the way.
Career outlook In an aerospace engineer ing career you can design aircraft, develop propulsion systems, research new materials , test new engines, develop spacecraft, or plan maintenance programs.
As a graduate from this program you’ll be ready You’ll have the chance to work as a high-level to do 12 weeks’ work engineer on a wide range experience, research projects of Australian and internatio in collaboration nal projects. with industry and the opportun ity to work The most likely destinatio overseas with leading engineer ns for graduates are: ing organisations. ¡ design and manufacturing The School of Engineer companies ing has strong Australia including Boeing Australia n and international links , Airbus, BAE with the aerospace Systems Australia and Australian Aerospace industry, built up over many years. Key ¡ defence forces including the stakeholders in the aerospac Royal Australian e industry have Navy, Australian Army participated in the developm and Royal Australian ent of the program, Air Force and have a continuing role in ensuring that it remains relevant and that ¡ the Defence Science and Technolo graduates have strong gy Group career paths. and Capabilit y Acquisiti on and Sustainment a in Group plom ed Di of at least vanc A Professional recogn ¡ Australian and international 5 IT Ad ition airlines th a GP up to 1. e RM al) wi th of ive tes autic s) if ¡ airworthiness organisations This uaprogram isonfully to redceby itEngineer point s such as the Civil Grad able g (Aer be accredite Australia Aviation Safety Authority 4 cred eerin Graduate oft the and Department of program are eligible of 14 0 may slen Engin of. 4. Defence t for graduate (equiva ahip ofe.Engineers Australia. 3.0 ou edit members plac cr Fullarmembers in hip ¡ general aviation. asng gaini a professional engineer e gree ye s’ sful in te De rospac maycc es be cia obtained ae s so after in an appropriate period of ay su r As Aerospace engineers gain professional practice. Pathw of the RMIT y with a majo int average skills in various fields po teed of advanced technology uates Technolog a grade that are in high demand Grad guaran 2 ve g eerin in non-aerospace organisa achie of 4.0 are ities t to 19 m Engin ring who tions, including the out ivalen progra portun ee automotive industry, power ics st 2.0 it (equ engin generation industry, nal op nal exchangeof Aeronaut at lea ars’ cred io of at uate ) software support companies and tio Undergrad rsity (GPA th two ye year Intern research interna ng Unive cond rly wi d organisa tions. nji entry has an ea s). ina. Se lop an point RMIT ent with Na UAA), Ch this from gain ll deve - as credit (N ct wi ed tend You’ll agreem nautics e e) proje ge you ne ce d to at January. shot lud on tro te snap st inc As in en ram lec Prog se (cap will mm e of and owled specialist skills gain to co ts are the middl ll n of which al year ills and kn you’ , en fin sig ram lia ies ud st , de sed prog r to Your e sk stud Austra career. aerospace mics tion. embe for your ce th eers g In this industry-focu of sophisticated Sept rodyna d optimisa s Program code: BH078 reinfor by Engin eerin point se, ae an n, and operation e ed l engin credit tary Chine al design defin siona the analysis, desig rospac ur en r profes lect ae are. elem and struct majo your to se t ugh a ll inue hardware and softw aircraf nce) ion e thro ich you wi 4 o cont ives. als and structures, Durat tic materi ar als ace perie ac ll aerosp Ye ct You’ aerodynamics, into pr oject, in wh a critical stry ex 3 or 4. g ele re u of areas such as (indu eory ics, and propulsion. eerin t range e pr th dynam ct uc ar 2, gin broad t ing et a thermo l, en nd pu arch You’ll study mpl in Ye stru learn ics and contro Full-time: 4 years ce your You’ll l rese project, co erial, co , and s, design, dynam ram grated completed siona of interest and enhan available aerospace system mat g, ation rk-inte be Prog m to suit your areas Part-time may be profes ur research blished eerin A wo also inform grated ll pu e you to tailor the progra engin 2 yo t wi allow at d of will an ive alu plan ing -inte Elective studies and try or elect as s 1 an of relev project, ev work rstand . Year indus your employability maths review unde is is a ch career opportunities with m. This increases ring, resear dings. Th njunction a solid enginee ment. e areas of the progra this industr y. your fin gain in viron Location are built in to multipl ering solutions in your r in co rk en You’ll udies Sustainability issues rm sustainable engine and report done eithe eering wo ing st materials. d to practise demand for long-te nics includ gin ct design skills require ses there is increasing s of Mecha s 1 proje ulated en technological, and the engineering hanic and Bundoora campu of cal, City ial tions ec analyti the implica m te you’ll have Mater ace the wider social in a sim When you gradua learn to appreciate aerosp y ring conducted on the ering. You’ll also 3 ge in g nit ginee Years 1 and 2 are aerospace engine Year eerin owled e opportu ilor er En and 4 on the design and kn gin 3 C able u rth years C En sustain and ta s th yo Fu n profession. City campu en h inspiring and matics matics itariangetting you ca deep and e solutions throug s. Mathe Mathe s Challenge – a human You’ll ring, while udies so of interest unity to design creativ Bundoora campu ers Without Border You’ll have the opport ive st eas ginee part in the Engine ct ar ion taking en as r ele . ct of ur well pute n it yo nities ering degrees. iples build projects, as rtake Introdu ft Com to su in all RMIT engine Princ portu unde ra mics a work-integrated Desig ogram focused course offered reer op dyna unity to undertake nal to Airc Aided Aero the pr e your ca also have an opport , Selection mode ofessio of te job ready, you’ll Aero nc to Pr nics enha s for To ensure you gradua ction e. tice Mecha stems & Stat experience) electiv rsity Introdu ring Prac Sy Fluid Math to learning (industry Unive ee nical ATAR (2017: 92.30) 1 & Au h Engin ive ec Mecha Year ct M ele acture Manuf nal mics n for Applied ynamics putatio Analysis Dyna y Desig Com od g How to apply sembl eerin Therm Career outlook and As Engin can ering career you s and Industry connections VTAC an aerospace engine 1: In s, nic ter e system Semes ha ac sion have t p propul sp Mec ram Fligh ering student, you’ll Aero design aircraft, develo Prog s, ials 2 nics vtac.edu.au As an RMIT engine the 2 ulsion ls, test new engine Mater ive with industry from Mecha Year Prop elect research new materia opportunities to engage or plan maintenance to RMIT degree. develop spacecraft, Semester 2: Direct s e beginning of your nced spac s/apply/direct System ring ram Adva iples Aero mics programs. rmit.edu.au/program s, Prog ee n Princ ents, industry project rodyna Engin ive sig placem Ae ready work h De be elect Throug be in program you’ll namics rs and events, you’ll hods a graduate from this Dy As ite range et e wide a M internships, semina Fin on way. e spac vel engineer arch y every step of the Aero ntrol rospac ethods to work as a high-le Rese iversity rs s. Ae contact with industr Fees ee project Un gin 3 international ent M and Co ive of Australian and for En Year Elem elect weeks’ work 12 do to are: tion: You’ll have the chance ration e tions for graduates e For local fee informa spac h projects in collabo spac The most likely destina ram s/fees Aero ct experience, researc Aero work Prog rmit.edu.au/program ures n Proje the opportunity to acturing companies ive Struct with industry and Desig ations. elect ¡ design and manufAustra engineering organis tone lia, Airbus, BAE leading ps with as Boeing Ca ng overse g includi ace eerin and Australian Aerosp nced ctures Australian Engin Part A Systems Australia Adva e Stru ering has strong Contact ter. lian ct ives 4 spac The School of Engine ng the Royal Austra Proje semes ace elect eted Aero Year rsity each links with the aerosp ¡ defence forces includi compl Australian pstone Unive and international ailable Army and Royal Key g Ca can be ent online. Navy, Australian t be av Info Corner over many years. eerin e, this em industry, built up ay no ed Engin Part B ton Street ives ace industry have Force 1 intak rsonal Stat complet and m Swans Air ct aerosp 330 the in ct ele ange ester be stakeholders Group program, ply ram Proje r sem e VTAC Pe this can e and Technology may ch La Trobe Street) e Ap Prog development of the Scienc Fo (cnr s e the th in Defenc se ated e, in th the ur ¡ t particip h ak g that it ition and Sustainment e. Co throug ester 2 int al statemen ing role in ensurin Melbourne VIC 3000 and Capability Acquis structur and have a continu m urses on have strong d ry co ogram For se the pers Tel. +61 3 9925 2260 and that graduates Group –a pulso ram an the pr h remains relevant 4 m of og n. ug d Co tio an nts. thro l ted pr ample tional airlines its 3 s applica career paths. esen ale applica an ex matica ¡ Australian and interna ites un r repr Direct Mathe d a This is Civil quisite AS unde ints to fem ts 78 erequis in one of sations such as the h078 Prere /bh0 e note: ms/b AC SE nder rams ics; an rogra 12 pr /prog of men Pleas ¡ airwor thiness organi it a VT nus po st 25 Year is a ge hemat (except nition rmit.edu.au/p and Depar tment quire This at lea ialist Mat rrent AS bo ust subm 1. n n Safety Authority sh Professional recog re of Aviatio lia Cu gli SE e ra m ry ds ers u scor Spec Aust any En tego ance awar le yo accredited by Engine Defence study of an ny) or 25 in Entr eligib d select ca ate of This program is fully ds (a AL). are eligible least pletion y certific To be sh (E tes of the program Metho ore of at ar l com tion an Engli Australia. Gradua ¡ general aviation. sc Australia. cond essfu applica 30 in ership of Engineers Succ study . nior se fields least for graduate memb 12 se equivalent engineer or at ers gain skills in various Year as a professional l or d EAL) Aerospace engine Full membership ion ation period of ditiona . that are in high deman riate at logy uc ad approp techno an it ed ed rm after ed of advanc ng the info subm may be obtained nsider organisations, includi onal s may to be co e. in non-aerospace g. industry, Additi professional practic plicant e it printin y, power generation alia. te of 12 ap would lik Austr automotive industr .au. h the da Year t.edu nts of nt at Nonif they companies and researc w.rmi curre t reside it ww software support ation e and anen n. Vis curat perm . inform n is ac plicatio May 2017 s and organisations. ur ap blicatio citizen
— ineering Bachelor of Eng ering)(Honours) (Aerospace Engine
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You’ll develop a breadth of skills and knowledge across the aviation industry.
2018
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Semester 1: VTAC vtac.edu.au, or ions apply) Direct to RMIT (condit s/apply/direct rmit.edu.au/program
Industry connections
are fully accred The following majors ia: Engineers Austral
Associate.
Duration
Selection mode
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Year 1
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Program structure - Aviation Operati
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City campus
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Program snapshot
ATAR (2017: 92.30)
How to apply Semester 1: VTAC vtac.edu.au Semester 2: Direct to RMIT rmit.edu.au/programs/ap ply/direc
t
Fees For local fee information: rmit.edu.au/programs/fee s
Program structure Contact
The Master of Engineering (Airworthiness) consists of 96 credit points.
Info Corner 330 Swanston Street (cnr La Trobe Street) Melbourne VIC 3000 Tel. +61 3 9925 2260
rmit.edu.au/programs/b
The program includes the Masters Minor Research Project, which constitutes a capstone experience. This is relevant to the different airworthiness engineering and management aspects taught during the program. It also provides realistic work
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situations either in an industry project environment or in a simulated industry setting with operational constraints. In either case, you’ll be jointly supervised by an academic and/or a qualified industry professional investigating and researching problems in airworthiness engineering within the civil/defence domain.
Airworthiness Management Frameworks
Engineering Risk Management in Aviation
Aviation Safety Systems
Aircraft Certification
Aircraft Maintenance
Masters Minor Research Project
Human Factors in Aviation Safety OR Aircraft Structural Integrity
Compulsory courses Please note: This is an example of the program structure. Courses may change and may not be available each semester.
2018 Postgraduate
list for engineers seeking specia This program is designed ering field of airworthiness engine knowledge and skills in the and management.
Program snapshot Program code: MC238
required to develop, design, ses all engineering disciplines The field of airworthiness encompas civil and military. and maintain aircraft, both manufacture, certify, operate initial and and expertise in the areas of with specialised knowledge This program will provide you g and management. continuing airworthiness engineerin g professional who is you as an airworthiness engineerin educate to are program The objectives of this able to:
airworthiness engineering g assets in the initial and continuing problemanalyse complex engineerin technological solutions to ensure engineering, scientific and environment, and develop free operations olving and s through systematic problem-s possibilitie of array an from ¡ find innovative solutions systems design methodologies operating in the aircraft design, ogical engineering/technol maintenance industry ce engineering, certification and g, certification and maintenan solutions for the design, engineerin opportunities ¡ analyse and implement novelsystems for challenging problems and of aircraft and aeronautical ent g and engineering managem of key airworthiness engineerin ¡ communicate with a wide range manner effective and al profession stakeholders in a trust and respect ¡ build, lead and work in teams with and driven by rapidly changing ised by global competition ¡ achieve results in an industry character market forces
¡ Entry requirements To be eligible for entry, you must have successfully completed one of the following combinations of qualification and relevant work experience. For all qualifications, a minimum Grade Point Average (GPA) of 2.0 out of 4.0, or a minimum of 60% average, is required.
¡
Bachelor Honours (Australian Qualifications Framework (AQF) level 8) in aerospace engineering or aviation.
OR
¡
Bachelor (AQF level 7) in aerospace engineering or aviation and two years of relevant work experience.
OR
¡
Bachelor Honours (AQF level 8) in a noncognate area and five years of relevant work experience including one year at manager level.
OR
¡
Bachelor (AQF level 7) in a non-cognate area and seven years of relevant work experience including one year at manager level.
OR
¡
A minimum of 10 years of relevant work experience.
Credit and exemptions Please note: Qualifications in aerospace engineering and equivalent areas (aeronautical engineering, avionics engineering, etc.) and aviation and equivalent areas (aviation management, air transport management, etc.) are considered as a cognate area. Qualifications are provided with the corresponding AQF level, and international qualifications are assessed according to this framework. Equivalent qualifications to those stated will also be considered. For example, if you have been certified by Engineers Australia as a Chartered Professional Engineer (CPEng), this is considered equivalent to a Bachelor Honours (AQF level 8) in Engineering. Similarly, if you have been certified by Engineers Australia as a Chartered Engineering Technologist (CEngT), this is considered equivalent to a Bachelor (AQF level 7) in Engineering.
You may be eligible for exemptions on a case-by-case basis for previous study in a qualification at AQF level 8 or above, such as a graduate certificate, graduate diploma, or bachelor honours degree in aerospace, aeronautical or avionics engineering or other relevant engineering field. On successful completion of the Master of Engineering (Airworthiness) you may be eligible to undertake further studies in related programs such as postgraduate research programs.
Relevant work experience is considered to be in aviation or a related industry. In some cases it is required that work experience is at manager level. Applicants applying on the basis of any work experience must provide a letter from their employer(s) (or equivalent) verifying their roles and the duration of these. Years of work experience are considered in terms of full-time equivalence.
Industry connections al partnerships RMIT has research and education ess industry bodies/ with the following airworthin organisations: : regulators ¡ civil and military aviation Authority Australian Civil Aviation Safety Technical (CASA), The Directorate General Defence Airworthiness of the Australian Force (DGTA-ADF) BAE Systems ¡ aircraft design organisations: Boeing Australia, Australia, Thales Australia, Mahindra Aerospace ions: Qantas organisat nce maintena aircraft ¡ Australia Engineering, Boeing Defence ¡ aircraft operators: Qantas, Tigerair ions: organisat ent ¡ research and developm y Group Defence Science and Technolog nt of (DSTG) of the Australian Departme e Structures Defence, Advanced Composit Australia
Learning and teaching
sessions are run Lectures, tutorial and laboratory to fit in with the during the afternoon and evening students. work commitments of part-time
This information is designed for Australian and New Zealand citizens and permanent residents of Australia. Disclaimer: Every effort has been made to ensure the information contained in this publication is accurate and current at the date of printing. For the most up-to-date information, please refer to the RMIT University website before lodging your application. Visit www.rmit.edu.au. RMIT University CRICOS Provider Code: 00122A. RMIT Registered Training Organisation code: 3046. Prepared September 2017. 14672 0817
Career outlook
in aviation as it entails Airworthiness is a key area s with an a set of procedures and regulation safely operated aim to ensure aircraft can be significant hazard throughout their lives without parties. Given to aircrew, passengers or third of both the stringent operational scenarios a global scale, the civil and military aircraft on als with specialised need for aviation profession is of paramount knowledge in airworthiness importance. (Airworthiness) is a The Master of Engineering designed with an unique program that has been in this area. aim to meet the industry needs Graduate career paths include: design, ¡ airworthiness engineering inring engineering and manufactu organisations s ¡ airworthiness policy and regulation tion in aviation formulation and administra regulating authorities design ¡ aircraft and aeronautical product and engineering and certification in design organisations in airlines, ¡ aircraft maintenance management ent continuing airworthiness managem ce organisations and maintenan organisations
Duration Full-time: 1 year Part-time: 2 years
Location *
City and Bundoora campuses
the City campus, * Most lectures take place at the Bundoora with some lab classes run at campus.
Program Manager Dr Jose Silva Tel. +61 3 9925 8019 u Email: jose.silva@rmit.edu.a
How to apply Direct to RMIT University: irect rmit.edu.au/programs/apply/d
Fees 2018 indicative fees ¡ Commonwealth supported places to (CSPs) range from $AU6,561 $AU10,951 Full-fee: $AU30,720 per annum
¡
learn how to For more information and to fees see: calculate your exact tuition stgraduate rmit.edu.au/programs/fees/po
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rmit.edu.au/programs/mc23
CITY CAMPUS Queensberry Street
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Industrial research wind tunnels Wind tunnels are important equipments used in aerodynamic research to study the effects of aerodynamics on a solid object. They consist of a tubular passage or circuit with object under test mounted in a central test section. Air is made to move past the object by a powerful fan system or other means. The test object, often called a wind tunnel model, is instrumented with suitable sensors to measure aerodynamic forces, pressure distribution, or other aerodynamic-related characteristics. Wind tunnels vary in sizes: small (approx. 2m length), medium (10 - 50m) and large (50m +), Tunnels can be oriented horizontally (single floor) or vertically (multiple levels)
Aerospace Engineering Precedent QUICK FACTS Aerospace and Engineering Sciences Creating Next-Generation Employees for the Digital-to-Hardware Manufacturing Industry MSU Denver is embarking on an innovative project to integrate advanced manufacturing disciplines into a single new building to train a globally competitive aviation and advanced manufacturing workforce for the state of Colorado.
The Aerospace and Engineering Sciences Building MSU Denver will revolutionize advanced manufacturing education in Colorado by integrating the study of: • Aerospace science and aviation • Industrial design • Civil, mechanical and electrical engineering technology • Computer science and computer information systems • Physics
These disciplines will collaborate in a state-of-the-art building providing students with the curriculum, the advanced technologies and the laboratories necessary to give them a highly experiential, relevant education. The result will be a dynamic interdisciplinary learning space designed to support an integrated hardware/software advanced manufacturing curriculum, foster collaborative research and drive deeper industry ties.
QUICK FACTS Aerospace and Engineering Sciences
In this way, MSU Denver will educate the most skilled, workforce-ready professionals available to meet the advanced manufacturing needs of Colorado, particularly in the areas of aviation and aerospace.
Creating Next-Generation Employees for the Digital-to-Hardware Manufacturing Industry MSU Denver is embarking on an innovative project to integrate advanced manufacturing disciplines into a single new building to train a globally competitive aviation and advanced manufacturing workforce for the state of Colorado.
Proposed Aerospace and Engineering Sciences Building Details
The Aerospace and Engineering Sciences Building
Size
MSU Denver will revolutionize advanced manufacturing education in Colorado by integrating the study of:
142,000 gross square feet Location
62% Specialized Laboratories
12% Classrooms
13% Support Spaces
13% Offices
• Aerospace science and aviation
Southeast corner of 7th Street and Auraria Parkway on the Auraria Campus in Downtown Denver
• Industrial design
Funding Sources
• Civil, mechanical and electrical engineering technology
• $20 million state • $20 million private sector
• Computer science and computer information systems
• $20 million MSU Denver’s existing capital construction student fee
Estimated Timeline
• Physics
Break ground in early 2015, open in 2018
These disciplines will collaborate in a state-of-the-art building providing students with the curriculum, the advanced technologies and the laboratories necessary to give them a highly experiential, relevant education. The result will be a dynamic interdisciplinary learning space designed to support an integrated hardware/software advanced manufacturing curriculum, foster collaborative research and drive deeper industry ties. In this way, MSU Denver will educate the most skilled, workforce-ready professionals available to meet the advanced manufacturing needs of Colorado, particularly in the areas of aviation and aerospace.
Aerospace and Engineering Sciences Building Details QUICK FACTS AerospaceProposed and Engineering Sciences Size
Creating Next-Generation Employees for the Digital-to-Hardware Manufacturing Industry 142,000 gross square feet 62% Specialized
12% Classrooms 13% Support MSU Denver is embarking on an innovative project to integrate advanced manufacturing disciplinesLaboratories into a Spaces Location single new building to train a globally competitive aviation and advanced manufacturing workforce for the Southeast corner of 7th Street and Auraria Parkway on the Auraria Campus in Downtown Denver state of Colorado. Funding Sources
The Aerospace and Engineering Sciences Building
• $20 million state
MSU Denver will revolutionize advanced manufacturing education in Colorado by integrating the study of:
• $20 million private sector These disciplines will collaborate in a state-of-the-art • $20 million MSU Denver’s existing capital construction student fee building providing students with the curriculum,
• Aerospace science and aviation • Industrial design • Civil, mechanical and electrical engineering technology • Computer science and computer information systems • Physics
the advanced technologies and the laboratories Estimated Timeline necessary to give them a highly experiential, Break ground in early 2015, open 2018 relevant education. The result willinbe a dynamic interdisciplinary learning space designed to support an integrated hardware/software advanced manufacturing curriculum, foster collaborative research and drive deeper industry ties. In this way, MSU Denver will educate the most skilled, workforce-ready professionals available to meet the advanced manufacturing needs of Colorado, particularly in the areas of aviation and aerospace.
Proposed Aerospace and Engineering Sciences Building Details
13% Offices
Career prospects
and management who are capable of interacting with and understanding specialists from a wide range of disciplines and functional areas. T-shaped professionals have enhanced, so-called 21st-century skills and are talented in solving problems, critical thinking, interpersonal skills and the ability
Graduates with an MSc in Aerospace Engineering have outstanding career opportunities; 98 % find full-time work within six months. Of these graduates, 35 % take positions in the aeronautics and astronautics sector, with firms including Stork, KLM, the national aerospace laboratory (NLR), TNO,
to perform complex work. The “T-shape” framework is endorsed by the Industrial Board for Aerospace Engineering.
Aerospace Structures & Materials The MSc track in Aerospace Structures & Materials aims to provide you with the knowledge, insight and skills that you will need to become an independent engineer in aerospace applications involving material and structural engineering. This involves such aspects as detailed composite design, novel material design, safety, structural integrity and damage tolerance, as well as practical applications (e.g. production processes and the design of smart and adaptive composites). This track will broaden your understanding of composite design procedures, composite production technologies, material science, structural integrity, damage tolerance and other topics.
MSc Programme consultancy companies, national defence ministries), and others choose to remain in academia or start their own firms. Aerospace engineering graduates are also making significant
Aerospace Engineering contributions to research on the impact of aircraft and spacecraft operations on the environment.
Facilities Practical exercises form an essential part of testing and verifying theories. The faculty has a complete range of
Faculty of Aerospace Engineering
Flight Performance and Propulsion
EADS Space, Airbus and Boeing. About 65 % find work in organisations that are not directly related to aerospace engineering (e.g. Shell Oil, Philips, Ferrari, banking or
The MSc track in Flight Performance and Propulsion integrate the knowledge and expertise of various aeronautical sub-disciplines into conceptual aircraft designs and subsystems that can meet the stringent requirements of the future. The objective of this track is to help you become a competent engineer and designer, with specific knowledge and competencies in contemporary methods in aircraft and propulsion system design.
Aerodynamics and Wind Energy The MSc track in Aerodynamics and Wind Energy combines fundamental and applied research disciplines of aerospace and wind-power systems, focusing on development and optimisation. Students who want to learn about advanced aerodynamic tools (experimental and numerical modelling techniques) or who wish to gain experience with the applications of aerodynamics in design and sustainable energy conversion.
high-tech facilities at the disposal of students and researchers.
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The flight simulator SIMONA (International Research Institute for Simulation, Motion and Navigation) is used to study manmachine interactions. It can simulate the motion of airplanes, helicopters, heavy and light vehicles, as well as spaceplanes.
In preparing
Wind tunnels Eight high-speed and low-speed wind tunnels are used to verify aerodynamic theory and observe physical phenomena. Experiments can be performed at speeds ranging from subsonic (as low as 35m/sec) to hypersonic (up to Mach 11).
Control and Operations
Structures and Materials Laboratory
The MSc track in Control and Operations is focused on the through-life operations associated with aerospace industry. It addresses the avionics systems of individual aircraft, flight control and flight deck design, airline operations and support, air traffic control and safety, airports and the operations associated with air transport as a whole.
This laboratory contains a variety of testing equipment, including fatigue-testing machines, low-speed and high-speed impact testers, production equipment (e.g. a filament-winding machine) and a chemistry/physics section equipped with microscopes and an autoclave. The laboratory is used for several kinds of materials research, including experiments with lightweight structures.
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It covers a broad field, ranging from spacecraft engineering, space systems engineering, orbital mechanics, instrumentation, launchers and propulsion to mission analysis, planetary
The faculty hangar contains a collection of aircraft and
exploration and the scientific interpretation of satellite observation data. Within this track, you will be offered opportunities to participate in ongoing engineering and
a test model of ENVISAT, the largest European satellite to date.
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In this facility, students gain a greater understanding of design and performance considerations, with the ultimate goal of generating innovative ideas and solutions.
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space craft parts, including cockpits, wings, advanced sensors and rocket components. It also houses an F16, a helicopter and
Clean Room The clean room has a variety of equipment for integration
and testing of our university Delfi nanosatellites. With its Imagine that you could low level of environmental pollutants, our clean room conforms to ISO Class 5: 100 000 particles per m³. design the aircraft of the Particles, temperature and humidity are monitored continuously (the measurements are saved). Pressure is future – one suitable for monitored during operations of the low-thrust rocket test stand. The first Dutch satellite built by students, Delfi C3, short excursions into space was created here. Students are currently working on its successor, the Delfi N3xt.
Micro Air Vehicle laboratory (MAV-Lab) The development of MAVs requires knowledge from many areas, including electronics, mechanics, aerodynamics, navigation and control. At TU Delft, this knowledge has been combined in the Micro Air Vehicle laboratory: the MAV-lab.
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Mode-Gakuen Spiral Towers - Nikken Sekkei - Nakamura-ku, Nagoya, Japan The building employs an inner truss tube system that acts as a central pillar supporting the three anshaped wing sections. The truss tube is constructed of concrete-filled, steel tubular columns with structural braces affixed around the base. The truss systems helps achieve high seismic capacity, with two vibration damping systems that self-adjust and sway against the movement of the building
FACADE: UNIT CURTAIN WALL
Triangular gridded dual-layer glass curtain wall incorporating an energy saving ventilation system and reduced heat loads. Each floor rotates 3 degrees with a 1 percent reduction to the floor.
Twisting shape would promote an environment for fostering creativity within the schools
This air flow system significantly reduces heating and cooling loads by passing indoor/outdoor air (exhaust air/return air) between two panes of glass. The cavity between the panes typically includes blinds which can be shut according to heating/cooling requirements. The design was planned to optimize the pedestrian network and spaces with green spaces and restaurants.
DOUBLE SKIN AIR FLOW WIDOW SYSTEM
Richmond High School by Hayball Architects - Richmond, Victoria
Asakusa Culture and Tourism Centre by Kengo Kuma - Asakusa, Taito, Tokyo, Japan Area 234.13 m2
The construction of the Griffiths St Campus in Richmond will be over four levels with stateof-the-art learning facilities. Spaces will be flexible to promote a range of activities and experiences to suit staff and students’ varying needs. The precinct will function as the heart of the campus with outdoor spaces for learning, gathering and play.
A vertically striated building sits on a small area on a street corner in Asakusa
The Gleadell St Campus facility will include general purpose teaching spaces and four competition-standard netball courts (one indoor).
The roofs not only divide the structure into 8 one-storied houses but also determine the role of each floor. First and second floor has an atrium and in-door stairs, creating a sequence from which you can feel the slope of the two roofs. On 6th floor, taking advantage of the slanted roof, we were able to set up a terraced floor with which the entire room can function as a theatre.
Richmond High School will cater for 650 Year 7-12 students, responding to increased inner suburban density. Construction images depict the first two level where the primary structure is seen. The building utilises a combination of a concrete core and periphery bracing. The latter for support and architectural expression. Renders and site plan reveal the completed project
The building was required to accommodate plural programs such as tourist information center, conference room, multi-purpose hall and an exhibition space.
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FLYING UP PROJECT NAME PROJECT LOCATION ISSUE DATE GROUP NAME TUTOR NAME SUBJECT NAME SCHOOL NAME SEMESTER
NOT YET DECIDED 81/89 BOUVERIE ST, CARLTON VIC 3053 08/03/2018 DYNAMIC ARCHITECS EDWARD BERRY ARCH 1016 TECHNOLOGY 04 RMIT UNIVERSITY SEMESTER 1, 2018
PROJECT TITLE SHEET LIST CONCEPT NOTES
Sheet Number
Sheet Name
SIZE
SCALE
A1
1:50
A1
1:50
A1
1:50
• CONCEPT TAKEN FROM ‘ZERO GRAVITY ROLLER COASTER’ DESIGN • BUILDING’S FAÇADE IS CURVED TO MIMIC THE RUNWAY ON THE SIDE A1 NA • LOWER USE THE FULL EXTENT OF SITE BOUNDARY SUITABLE A000FLOORSTITLE SHEET FORA001 WORKSHOPS A1 1:500 SITE PLAN • UPPER FLOORS ARE NARROWER MORE SUITABLE FOR CLASSROOMS A1 THE TOP 1:50 A100 BASEMENT FLOOR PLAN • WORKSHOP FLOORS RECEIVE NATURAL SUNLIGHT FROM
A101 A102 A103 A104 A200 A201 A300 A301 A400 A401 A402 A403 A404 A500 A510 A600
GROUND FLOOR PLAN TYPICAL FLOOR PLAN ROOF PLAN REFLECTED CEILING PLAN ELEVATIONS ‐ NORTH & EAST ELEVATIONS ‐ SOUTH & WEST SECTION A‐A SECTION B‐B TYPICAL FACADE CONSTRUCTION DETAILS 01 CONSTRUCTION DETAILS 02 CONSTRUCTION DETAILS 03 CONSTRUCTION DETAILS 04 TYPICAL AMENITIES PLAN TYPICAL AMENITIES ELEVATIONS SPECIAL DRAWINGS
A1
1:50
A1
1:100
A1
1:100
A1
1:50
A1
1:50
A1
1:10
A1
1:10
A1
1:10
A1
1:10
A1
1:10
A1
1:20
A1
1:20
A1
NA
GENERAL NOTES 1
2 3 4 5 6 7 8
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS.CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR BELOW. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
0
10
20
30
Notes:
40
Sample Notes
DYNAMIC ARCHITECTS
REV
STATUS:
50
60
70
80
90
100
THE INTENT OF THE DRAWINGS AND SPECIFICATIONS IS TO PROVIDE FOR A WATERTIGHT & WEATHER TIGHT BUILDING. THE CONTRACTOR SHALL REVIEW ALL DETAILS RELATING TO THIS INTENT AND BY BIDDING OR ENTERING INTO THIS CONSTRUCTION CONTRACT WARRANTS FOR ONE FULL YEAR THE ADEQUACY OF THESE DETAILS. SHOULD THE CONTRACTOR TAKE EXCEPTION TO THESE DETAILS, SHALL NOTIFY THE ARCHITECT PRIOR TO BIDDING. ANY DEVIATION FROM THIS GENERAL INTENT SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION. THE INTENT OF THE DRAWINGS AND SPECIFICATIONS IS TO PROVIDE FOR A PLUMB, LEVEL, AND SQUARE STRUCTURE UNLESS OTHERWISE NOTED. ANY DEVIATION FROM THIS GENERAL INTENT SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION. THE BUILDING SHALL BE CONSTRUCTED IN FULL COMPLIANCE WITH ALL APPLICABLE CODES, ORDINANCES AND REGULATIONS AS WELL AS THE DRAWINGS AND SPECIFICATIONS. ANY CODE DEFICIENCIES IN THE DRAWINGS RECOGNIZED BY THE CONTRACTOR SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION. THE CONTRACTOR SHALL BE RESPONSIBLE FOR THE ACCURATE PLACEMENT OF THE BUILDING ON THE SITE AND VERIFY ALL DIMENSIONS AND EXISTING CONDITIONS. DISCREPANCIES BETWEEN DRAWINGS AND ACTUAL SITE CONDITIONS SHALL BE BROUGHT TO THE ATTENTION OF THE ARCHITECT BEFORE BIDDING THE PROJECT OR THE COMMENCEMENT OF WORK. THE OWNER SHALL NOT BE RESPONSIBLE FOR CHANGES TO THE WORK DUE TO THE FAILURE OF THE CONTRACTOR TO FAMILIARIZE HIMSELF WITH EXISTING CONDITIONS DO NOT SCALE DRAWINGS: ALL DIMENSIONS SHALL HAVE PREFERENCE OVER SCALE AND BE FIELD VERIFIED AND COORDINATED WITH WORK OF ALL TRADES. IF NO DIMENSIONS ARE GIVEN OR DISCREPANCIES FOUND, THE CONTRACTOR SHALL NOTIFY THE ARCHITECT FOR CLARIFICATION BEFORE BIDDING OR COMMENCING THE WORK. DETAILS ARE INTENDED TO SHOW METHOD AND MANNER OF ACCOMPLISHING WORK. MINOR MODIFICATIONS MAY BE REQUIRED TO SUIT JOB DIMENSIONS OR CONDITIONS, ALL INCLUDED AS PART OF THE WORK. THE CONTRACTOR SHALL PROVIDE ALL PERMITS AND INSPECTION NECESSARY FOR THE PROPER EXECUTION OF THE WORK IN ACCORDANCE WITH APPLICABLE CODES AND GOVERNING REGULATIONS. THE CONTRACTOR SHALL VERIFY THE SIZES AND LOCATIONS OF ALL MECHANICAL AND ELECTRICAL EQUIPMENT PADS AND BASES, AS WELL AS POWER, WATER AND DRAIN REQUIREMENTS FOR SUCH EQUIPMENT WITH EQUIPMENT MFG. DEVIATION OF THE AFOREMENTIONED REQUIREMENTS SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION.
DESCRIPTION
PRELIMINARY
BY
DATE
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
CLIENT:
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION ARCHITECT:
DYNAMIC ARCHITECTS
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
TITLE:
TITLE SHEET
SCALE AT A1:
DATE:
DRAWN:
01.03.18 D.K & J.V PROJECT NO:
001
DRAWING NO:
A000
CHECKED:
E.B REVISION:
A
SPACESHIP LAUNCH PAD PROJECT NAME PROJECT LOCATION ISSUE DATE GROUP NAME TUTOR NAME SUBJECT NAME SCHOOL NAME SEMESTER
NOT YET DECIDED 81/89 BOUVERIE ST, CARLTON VIC 3053 08/03/2018 DYNAMIC ARCHITECS EDWARD BERRY ARCH 1016 TECHNOLOGY 04 RMIT UNIVERSITY SEMESTER 1, 2018
CONCEPT NOTES • • • • • • •
PROJECT TITLE SHEET PAD’ LIST CONCEPT TAKEN FROM ‘SATURN V LAUNCH TWIN TOWERS WITH SERIES OF BRIDGES CONNECTING THE TWO BUILDINGS Sheet Number SCALE THE LARGER TOWER IS FOR Sheet Name SERIES OF WORKSHOPS SIZE WORKSHOP TOWER IS MORE SIMPLE ORGANISED WAREHOUSE TYPOLOGY THE SMALLER TOWER IS FOR SERIES OF CLASSROOMS A1 NA A000 TITLE SHEET CLASSROOM TOWER CONTAINS MIX PROGRAMS INTERACTING WITH EACH OTHER A1 1:500 A001 SITE PLAN THE TWO TOWERS MAY HAVE DIFFERENT FLOOR LEVELS
A100 A101 A102 A103 A104 A200 A201 A300 A301 A400 A401 A402 A403 A404 A500 A510 A600
BASEMENT FLOOR PLAN GROUND FLOOR PLAN TYPICAL FLOOR PLAN ROOF PLAN REFLECTED CEILING PLAN ELEVATIONS ‐ NORTH & EAST ELEVATIONS ‐ SOUTH & WEST SECTION A‐A SECTION B‐B TYPICAL FACADE CONSTRUCTION DETAILS 01 CONSTRUCTION DETAILS 02 CONSTRUCTION DETAILS 03 CONSTRUCTION DETAILS 04 TYPICAL AMENITIES PLAN TYPICAL AMENITIES ELEVATIONS SPECIAL DRAWINGS
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:100
A1
1:100
A1
1:50
A1
1:50
A1
1:10
A1
1:10
A1
1:10
A1
1:10
A1
1:10
A1
1:20
A1
1:20
A1
NA
CLASSROOM TOWER
SKY BRIDGE
WORKSHOP TOWER
AVIATION SIMULATOR
RUNWAY
WEATHER MONITOR
ENGINEERING MONITOR
TURMINAL
COMPOSITE MODELING
GENERAL NOTES 1
2
CLASS ROOMS
3 4
GENERAL WORKSHOP DELIVERY
5 6 ENTRANCE
WIND TUNNEL
7 8
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS.CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR BELOW. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
0
10
20
30
Notes:
40
Sample Notes
DYNAMIC ARCHITECTS
REV
STATUS:
50
60
70
80
90
100
THE INTENT OF THE DRAWINGS AND SPECIFICATIONS IS TO PROVIDE FOR A WATERTIGHT & WEATHER TIGHT BUILDING. THE CONTRACTOR SHALL REVIEW ALL DETAILS RELATING TO THIS INTENT AND BY BIDDING OR ENTERING INTO THIS CONSTRUCTION CONTRACT WARRANTS FOR ONE FULL YEAR THE ADEQUACY OF THESE DETAILS. SHOULD THE CONTRACTOR TAKE EXCEPTION TO THESE DETAILS, SHALL NOTIFY THE ARCHITECT PRIOR TO BIDDING. ANY DEVIATION FROM THIS GENERAL INTENT SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION. THE INTENT OF THE DRAWINGS AND SPECIFICATIONS IS TO PROVIDE FOR A PLUMB, LEVEL, AND SQUARE STRUCTURE UNLESS OTHERWISE NOTED. ANY DEVIATION FROM THIS GENERAL INTENT SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION. THE BUILDING SHALL BE CONSTRUCTED IN FULL COMPLIANCE WITH ALL APPLICABLE CODES, ORDINANCES AND REGULATIONS AS WELL AS THE DRAWINGS AND SPECIFICATIONS. ANY CODE DEFICIENCIES IN THE DRAWINGS RECOGNIZED BY THE CONTRACTOR SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION. THE CONTRACTOR SHALL BE RESPONSIBLE FOR THE ACCURATE PLACEMENT OF THE BUILDING ON THE SITE AND VERIFY ALL DIMENSIONS AND EXISTING CONDITIONS. DISCREPANCIES BETWEEN DRAWINGS AND ACTUAL SITE CONDITIONS SHALL BE BROUGHT TO THE ATTENTION OF THE ARCHITECT BEFORE BIDDING THE PROJECT OR THE COMMENCEMENT OF WORK. THE OWNER SHALL NOT BE RESPONSIBLE FOR CHANGES TO THE WORK DUE TO THE FAILURE OF THE CONTRACTOR TO FAMILIARIZE HIMSELF WITH EXISTING CONDITIONS DO NOT SCALE DRAWINGS: ALL DIMENSIONS SHALL HAVE PREFERENCE OVER SCALE AND BE FIELD VERIFIED AND COORDINATED WITH WORK OF ALL TRADES. IF NO DIMENSIONS ARE GIVEN OR DISCREPANCIES FOUND, THE CONTRACTOR SHALL NOTIFY THE ARCHITECT FOR CLARIFICATION BEFORE BIDDING OR COMMENCING THE WORK. DETAILS ARE INTENDED TO SHOW METHOD AND MANNER OF ACCOMPLISHING WORK. MINOR MODIFICATIONS MAY BE REQUIRED TO SUIT JOB DIMENSIONS OR CONDITIONS, ALL INCLUDED AS PART OF THE WORK. THE CONTRACTOR SHALL PROVIDE ALL PERMITS AND INSPECTION NECESSARY FOR THE PROPER EXECUTION OF THE WORK IN ACCORDANCE WITH APPLICABLE CODES AND GOVERNING REGULATIONS. THE CONTRACTOR SHALL VERIFY THE SIZES AND LOCATIONS OF ALL MECHANICAL AND ELECTRICAL EQUIPMENT PADS AND BASES, AS WELL AS POWER, WATER AND DRAIN REQUIREMENTS FOR SUCH EQUIPMENT WITH EQUIPMENT MFG. DEVIATION OF THE AFOREMENTIONED REQUIREMENTS SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION.
DESCRIPTION
PRELIMINARY
BY
DATE
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
CLIENT:
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION ARCHITECT:
DYNAMIC ARCHITECTS
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
TITLE:
TITLE SHEET
SCALE AT A1:
DATE:
DRAWN:
01.03.18 D.K & J.V PROJECT NO:
001
DRAWING NO:
A000
CHECKED:
E.B REVISION:
A
SKY DIVING PROJECT NAME PROJECT LOCATION ISSUE DATE GROUP NAME TUTOR NAME SUBJECT NAME SCHOOL NAME SEMESTER
NOT YET DECIDED 81/89 BOUVERIE ST, CARLTON VIC 3053 08/03/2018 DYNAMIC ARCHITECS EDWARD BERRY ARCH 1016 TECHNOLOGY 04 RMIT UNIVERSITY SEMESTER 1, 2018
CONCEPT NOTES • • • • •
CONCEPT TAKEN FROM ‘SKY DIVING CENTRE’ PROJECT TITLE SHEET LIST THE THREE VERTICAL WIND TOWERS PROVIDE SUPPORT FOR THE CANTILEVERED FLOOR Sheet Number SIZE LIKESCALE EXPOSURE OF EXPERIMENTS Sheet Name CONNECT WITH PEDESTRIANS THE ROCK CLIMBING TOWER THE TOP FLOOR IS CANTILEVERED AND AIMED TO BE USED BY THE AVIATION COURSE ROOFTOP CAN BE USED FOR RUNWAYS FOR MODEL PLANES A1 NA
A000 A001 A100 A101 A102 A103 A104 A200 A201 A300 A301 A400 A401 A402 A403 A404 A500 A510 A600
TITLE SHEET SITE PLAN BASEMENT FLOOR PLAN GROUND FLOOR PLAN TYPICAL FLOOR PLAN ROOF PLAN REFLECTED CEILING PLAN ELEVATIONS ‐ NORTH & EAST ELEVATIONS ‐ SOUTH & WEST SECTION A‐A SECTION B‐B TYPICAL FACADE CONSTRUCTION DETAILS 01 CONSTRUCTION DETAILS 02 CONSTRUCTION DETAILS 03 CONSTRUCTION DETAILS 04 TYPICAL AMENITIES PLAN TYPICAL AMENITIES ELEVATIONS SPECIAL DRAWINGS
A1
1:500
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:100
A1
1:100
A1
1:50
A1
1:50
A1
1:10
A1
1:10
A1
1:10
A1
1:10
A1
1:10
A1
1:20
A1
1:20
A1
NA
GENERAL NOTES 1
2 3 4 5 6 7 8
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS.CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR BELOW. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
0
10
20
30
Notes:
40
Sample Notes
DYNAMIC ARCHITECTS
REV
STATUS:
50
60
70
80
90
100
THE INTENT OF THE DRAWINGS AND SPECIFICATIONS IS TO PROVIDE FOR A WATERTIGHT & WEATHER TIGHT BUILDING. THE CONTRACTOR SHALL REVIEW ALL DETAILS RELATING TO THIS INTENT AND BY BIDDING OR ENTERING INTO THIS CONSTRUCTION CONTRACT WARRANTS FOR ONE FULL YEAR THE ADEQUACY OF THESE DETAILS. SHOULD THE CONTRACTOR TAKE EXCEPTION TO THESE DETAILS, SHALL NOTIFY THE ARCHITECT PRIOR TO BIDDING. ANY DEVIATION FROM THIS GENERAL INTENT SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION. THE INTENT OF THE DRAWINGS AND SPECIFICATIONS IS TO PROVIDE FOR A PLUMB, LEVEL, AND SQUARE STRUCTURE UNLESS OTHERWISE NOTED. ANY DEVIATION FROM THIS GENERAL INTENT SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION. THE BUILDING SHALL BE CONSTRUCTED IN FULL COMPLIANCE WITH ALL APPLICABLE CODES, ORDINANCES AND REGULATIONS AS WELL AS THE DRAWINGS AND SPECIFICATIONS. ANY CODE DEFICIENCIES IN THE DRAWINGS RECOGNIZED BY THE CONTRACTOR SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION. THE CONTRACTOR SHALL BE RESPONSIBLE FOR THE ACCURATE PLACEMENT OF THE BUILDING ON THE SITE AND VERIFY ALL DIMENSIONS AND EXISTING CONDITIONS. DISCREPANCIES BETWEEN DRAWINGS AND ACTUAL SITE CONDITIONS SHALL BE BROUGHT TO THE ATTENTION OF THE ARCHITECT BEFORE BIDDING THE PROJECT OR THE COMMENCEMENT OF WORK. THE OWNER SHALL NOT BE RESPONSIBLE FOR CHANGES TO THE WORK DUE TO THE FAILURE OF THE CONTRACTOR TO FAMILIARIZE HIMSELF WITH EXISTING CONDITIONS DO NOT SCALE DRAWINGS: ALL DIMENSIONS SHALL HAVE PREFERENCE OVER SCALE AND BE FIELD VERIFIED AND COORDINATED WITH WORK OF ALL TRADES. IF NO DIMENSIONS ARE GIVEN OR DISCREPANCIES FOUND, THE CONTRACTOR SHALL NOTIFY THE ARCHITECT FOR CLARIFICATION BEFORE BIDDING OR COMMENCING THE WORK. DETAILS ARE INTENDED TO SHOW METHOD AND MANNER OF ACCOMPLISHING WORK. MINOR MODIFICATIONS MAY BE REQUIRED TO SUIT JOB DIMENSIONS OR CONDITIONS, ALL INCLUDED AS PART OF THE WORK. THE CONTRACTOR SHALL PROVIDE ALL PERMITS AND INSPECTION NECESSARY FOR THE PROPER EXECUTION OF THE WORK IN ACCORDANCE WITH APPLICABLE CODES AND GOVERNING REGULATIONS. THE CONTRACTOR SHALL VERIFY THE SIZES AND LOCATIONS OF ALL MECHANICAL AND ELECTRICAL EQUIPMENT PADS AND BASES, AS WELL AS POWER, WATER AND DRAIN REQUIREMENTS FOR SUCH EQUIPMENT WITH EQUIPMENT MFG. DEVIATION OF THE AFOREMENTIONED REQUIREMENTS SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION.
DESCRIPTION
PRELIMINARY
BY
DATE
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
CLIENT:
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION ARCHITECT:
DYNAMIC ARCHITECTS
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
TITLE:
TITLE SHEET
SCALE AT A1:
DATE:
DRAWN:
01.03.18 D.K & J.V PROJECT NO:
001
DRAWING NO:
A000
CHECKED:
E.B REVISION:
A
CONTROL TOWER PROJECT NAME PROJECT LOCATION ISSUE DATE GROUP NAME TUTOR NAME SUBJECT NAME SCHOOL NAME SEMESTER
NOT YET DECIDED 81/89 BOUVERIE ST, CARLTON VIC 3053 08/03/2018 DYNAMIC ARCHITECS EDWARD BERRY ARCH 1016 TECHNOLOGY 04 RMIT UNIVERSITY SEMESTER 1, 2018
CONCEPT NOTES • • • • •
PROJECT TITLE SHEET LIST
CONCEPT TAKEN FROM ‘AIR TRAFFIC CONTROL TOWER’ Sheet Number Sheet Name ONE CORNER IS CYLINDER GLASS TOWER FOR EXPOSURE SIZE SCALE REST OF THE BUILDING IS MADE OF BRICKS THE WORKSHOPS ARE CONNECTED WITH THE GLASS TOWER A1 NA A000 TITLE SHEET WHOLE OF SITE IS USED FOR THE BUILDING NO VOID SPACE
A001 A100 A101 A102 A103 A104 A200 A201 A300 A301 A400 A401 A402 A403 A404 A500 A510 A600
SITE PLAN BASEMENT FLOOR PLAN GROUND FLOOR PLAN TYPICAL FLOOR PLAN ROOF PLAN REFLECTED CEILING PLAN ELEVATIONS ‐ NORTH & EAST ELEVATIONS ‐ SOUTH & WEST SECTION A‐A SECTION B‐B TYPICAL FACADE CONSTRUCTION DETAILS 01 CONSTRUCTION DETAILS 02 CONSTRUCTION DETAILS 03 CONSTRUCTION DETAILS 04 TYPICAL AMENITIES PLAN TYPICAL AMENITIES ELEVATIONS SPECIAL DRAWINGS
A1
1:500
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:100
A1
1:100
A1
1:50
A1
1:50
A1
1:10
A1
1:10
A1
1:10
A1
1:10
A1
1:10
A1
1:20
A1
1:20
A1
NA
GENERAL NOTES 1
2 3 4 5 6 7 8
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS.CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR BELOW. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
0
10
20
30
Notes:
40
Sample Notes
DYNAMIC ARCHITECTS
REV
STATUS:
50
60
70
80
90
100
THE INTENT OF THE DRAWINGS AND SPECIFICATIONS IS TO PROVIDE FOR A WATERTIGHT & WEATHER TIGHT BUILDING. THE CONTRACTOR SHALL REVIEW ALL DETAILS RELATING TO THIS INTENT AND BY BIDDING OR ENTERING INTO THIS CONSTRUCTION CONTRACT WARRANTS FOR ONE FULL YEAR THE ADEQUACY OF THESE DETAILS. SHOULD THE CONTRACTOR TAKE EXCEPTION TO THESE DETAILS, SHALL NOTIFY THE ARCHITECT PRIOR TO BIDDING. ANY DEVIATION FROM THIS GENERAL INTENT SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION. THE INTENT OF THE DRAWINGS AND SPECIFICATIONS IS TO PROVIDE FOR A PLUMB, LEVEL, AND SQUARE STRUCTURE UNLESS OTHERWISE NOTED. ANY DEVIATION FROM THIS GENERAL INTENT SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION. THE BUILDING SHALL BE CONSTRUCTED IN FULL COMPLIANCE WITH ALL APPLICABLE CODES, ORDINANCES AND REGULATIONS AS WELL AS THE DRAWINGS AND SPECIFICATIONS. ANY CODE DEFICIENCIES IN THE DRAWINGS RECOGNIZED BY THE CONTRACTOR SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION. THE CONTRACTOR SHALL BE RESPONSIBLE FOR THE ACCURATE PLACEMENT OF THE BUILDING ON THE SITE AND VERIFY ALL DIMENSIONS AND EXISTING CONDITIONS. DISCREPANCIES BETWEEN DRAWINGS AND ACTUAL SITE CONDITIONS SHALL BE BROUGHT TO THE ATTENTION OF THE ARCHITECT BEFORE BIDDING THE PROJECT OR THE COMMENCEMENT OF WORK. THE OWNER SHALL NOT BE RESPONSIBLE FOR CHANGES TO THE WORK DUE TO THE FAILURE OF THE CONTRACTOR TO FAMILIARIZE HIMSELF WITH EXISTING CONDITIONS DO NOT SCALE DRAWINGS: ALL DIMENSIONS SHALL HAVE PREFERENCE OVER SCALE AND BE FIELD VERIFIED AND COORDINATED WITH WORK OF ALL TRADES. IF NO DIMENSIONS ARE GIVEN OR DISCREPANCIES FOUND, THE CONTRACTOR SHALL NOTIFY THE ARCHITECT FOR CLARIFICATION BEFORE BIDDING OR COMMENCING THE WORK. DETAILS ARE INTENDED TO SHOW METHOD AND MANNER OF ACCOMPLISHING WORK. MINOR MODIFICATIONS MAY BE REQUIRED TO SUIT JOB DIMENSIONS OR CONDITIONS, ALL INCLUDED AS PART OF THE WORK. THE CONTRACTOR SHALL PROVIDE ALL PERMITS AND INSPECTION NECESSARY FOR THE PROPER EXECUTION OF THE WORK IN ACCORDANCE WITH APPLICABLE CODES AND GOVERNING REGULATIONS. THE CONTRACTOR SHALL VERIFY THE SIZES AND LOCATIONS OF ALL MECHANICAL AND ELECTRICAL EQUIPMENT PADS AND BASES, AS WELL AS POWER, WATER AND DRAIN REQUIREMENTS FOR SUCH EQUIPMENT WITH EQUIPMENT MFG. DEVIATION OF THE AFOREMENTIONED REQUIREMENTS SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION.
DESCRIPTION
PRELIMINARY
BY
DATE
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
CLIENT:
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION ARCHITECT:
DYNAMIC ARCHITECTS
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
TITLE:
TITLE SHEET
SCALE AT A1:
DATE:
DRAWN:
01.03.18 D.K & J.V PROJECT NO:
001
DRAWING NO:
A000
CHECKED:
E.B REVISION:
A
Massing variation 1.
Massing variation 2.
Massing variation 3
Starting as an extruded mass from the boundaries, the mass is striated on each level. drawing on Asakusa Culture and Tourism Centre by Kengo Kuma, levels jut out at differnt angles appearing like stackked sheds. Here, floor levels and programmes of the mass can be read from the external. The offsets create potential for vertically intigrated programmes and roof top spaces.
Starting as an extruded mass from the boundaries, the mass is reshaped to take advantedge of street access and views. Drawing from JDS Architects’ Keizer Karel Building, the street corner cuts an angle on the mass. The creates a transitional space on the street corner with the building creating an over hang. The eastern face is extruded over the street, allowing the mass to peer over the street, while the western corner retreats inwards creating a slanted profile
The third massing variation draws inspiration from a jet turbine. This complicted piece of engineering is made of multiple interconnected components. The mass is imagined as a cross section of the turbine where the innere workings are on display.
Harpa Concert Hall Reykjavik, Iceland Henning Larsen Architects
Chokkura Plaza Shioya, Japan Kengo Kuma
Translational research Instituted Brisbane, Queenland Wilson Architects, Donovan Hill
Inspired by basalt crystals, the faceted glass scatters reflections of the surrounding harbour and sky, and presents a glittering wall of light after dark. The façade is a series of 12-sided space-filler of glass and steel dubbed the ‘quasi brick. This serves multiple functions as a self-supporting curtain wall, modular façade, in-built ventilation layer and expression. Glass of varying hues are placed in frames to refract incoming light, creating a mottled effect on the interior.
Structural façade incorporates 6mm thick diagonal steel plates on which cut masonry sits. The masonry is locally sourced oyaishi. The effect is a porous and light-appearing façade. This technique explores how masonry can be used without mortar and standard brick-work assemblage
On part of the brief would allow for separate staging, reduced bulk and increased natural light and ventilation. Along with recycle bricks, a façade of copper and glazing is used. Glazing panels on the northern façade are angled within a steel frame acting as a sun shade and adding to the aesthetic of the building. The framing system is consisted across the elevation, with variations only occurring in the position of brackets in which the glazing sits. These variations allow for the angling and overlapping of panels.
H
G
F
E
D
C
B
Notes:
A
Sample Notes
Level 11 49466 Level 10 45000 Level 9 40500 Level 8 36000 Level 7 31500 Level 6 27000 Level 5 22500 Level 4 18000 Level 3 13500 Level 2 9000 Level 1 4500 GROUND FLOOR 0
4
ELEVATION EAST 1 : 200
6
5
4
3
2
1 Level 11 49466 Level 10 45000 Level 9 40500 Level 8 36000 Level 7
REV DESCRIPTION
DATE
PRELIMINARY
STATUS:
31500
DYNAMIC ARCHITECTS
Level 6
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
27000 Level 5 22500 CLIENT:
Level 4 18000
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
DYNAMIC ARCHITECTS
Level 3 13500 TITLE:
Curtain Wall Variaitons
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
Level 2 9000 Level 1 4500 GROUND FLOOR
2
ELEVATION NORTH 1 : 200
0
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
As indicated01.03.18 Author Checker 001
0
10
20
REVISION:
A
A310
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
H
G
F
E
D
C
B
Notes:
A
Sample Notes
Level 11 49466 Level 10 45000 Level 9 40500 Level 8 36000 Level 7 31500 Level 6 27000 Level 5 22500 Level 4 18000 Level 3 13500 Level 2 9000 Level 1 4500 GROUND FLOOR 0
4
ELEVATION EAST 1 : 200
6
5
4
3
2
1 Level 11 49466 Level 10 45000 Level 9 40500 Level 8 36000 Level 7
REV DESCRIPTION
DATE
PRELIMINARY
STATUS:
31500
DYNAMIC ARCHITECTS
Level 6
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
27000 Level 5 22500 CLIENT:
Level 4 18000
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
DYNAMIC ARCHITECTS
Level 3 13500 TITLE:
Curtain Wall Variaitons
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
Level 2 9000 Level 1 4500 GROUND FLOOR
2
ELEVATION NORTH 1 : 200
0
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
As indicated01.03.18 Author Checker 001
0
10
20
REVISION:
A
A310
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Brick facade typology examples
Central Canteen of Tsinghua University
A
Lvl 05
Lvl 04 Lvl 09
C
Office Spaces
Lvl 08
Lvl 03 Lvl 07
B D
Support Spaces
Lvl 06
Lvl 02
Classrooms
A
Lvl 05
Lvl 04
Lvl 01 Lvl 03
B Lvl 02
Specialed Labs
Lvl 00
Lvl 01
Specialed Labs
Lvl 00
Lvl - 01 A: Specialed Labs = 62% B: Classrooms = 12% A: Specialed Labs = 62% C:= 12% Support Spaces = 13% B: Classrooms C: Support Spaces = 13% D: Office Spaces = 13% D: Office Spaces = 13%
Lvl - 01
Lvl 09
Office Spaces
Lvl 08
Lvl 07 Support Spaces
Lvl 06
Classrooms Lvl 05
Lvl 04
Lvl 03
Lvl 02
Lvl 01
Specialed Labs
Lvl 00
Lvl - 01
variation 1 looks at overlapping programmes across levels. Lab, classroom and support spaces are integrated across the upper levels
variation 2 looks at stacked programmes across levels. Spaces overhang over others, creating cavities and a more intigrated programme. potential of programmes as multiple sheds.
variation 3 looks at a dual function programme. Here Lab spaces vertically sepa
QUEENSBERRY ST
LIFT 02 CORRIDOR
WORKSHOP
WORKSHOP
CLASS ROOM 01
CLASS ROOM 02
BOUVERIE ST
LECTURE ROOM 01
LOBBY
TOILET D
TOILET M
TOILET F
OPTION 03 LEVEL 01 [L-SHAPE OFF CENTRE CORE] 1:50 @ A1
QUEENSBERRY ST
LIFT 02 WORKSHOP
CLASS ROOM 01
CLASS ROOM 02
LOUNGE 02
LOBBY
TOILET D
OPTION 03 LEVEL 02 [L-SHAPE OFF CENTRE CORE] 1:50 @ A1
TOILET M
TOILET F
BOUVERIE ST
LECTURE ROOM 01
LOUNGE
QUEENSBERRY ST
LOUNGE
TOILET D
TOILET F
TOILET M
WORKSHOP
STAIR 01
BOUVERIE ST
CLASS ROOM 01
CLASS ROOM 02
CLASS ROOM 03 STAIR 02
OPTION 01 LEVEL 01 [LINEAR OFF CENTRE CORE] 1:50 @ A1
QUEENSBERRY ST
TOILET D
CLASS ROOM 01
TOILET F
TOILET M
STAIR 01
BOUVERIE ST
LOUNGE
CLASS ROOM 02
CLASS ROOM 03 STAIR 02
Workshop/ Lab Classroom/Communal Ground Entrance Masonry Glazing
OPTION 01 LEVEL 02 [LINEAR OFF CENTRE CORE] 1:50 @ A1
Internal Divide Core
QUEENSBERRY ST
WORKSHOP
LOUNGE
CLASS ROOM 01 TOILET D
LOBBY
TOILET M
CLASS ROOM 03 STAIR 01
TOILET F
BOUVERIE ST
CLASS ROOM 02
CORRIDOR
CLASS ROOM 04
STAIR 02
OPTION 02 LEVEL 01 [RECTANGULAR OFF CENTRE CORE] 1:50 @ A1
QUEENSBERRY ST
LOUNGE
CLASS ROOM 01 TOILET D
LOBBY
TOILET M
LOUNGE CLASS ROOM 03 STAIR 01
TOILET F
Workshop/ Lab
CORRIDOR
CLASS ROOM 04
BOUVERIE ST
CLASS ROOM 02
Classroom/Communal STAIR 02
Ground Entrance Masonry Glazing Internal Divide Core
OPTION 02 LEVEL 02 [RECTANGULAR OFF CENTRE CORE] 1:50 @ A1
Mid Semester Presentation
PROJECT SATERN V PROJECT NAME PROJECT LOCATION ISSUE DATE GROUP NAME GROUP MEMBER TUTOR NAME SUBJECT NAME SCHOOL NAME SEMESTER
PROJECT SATERN V 81/89 BOUVERIE ST, CARLTON VIC 3053 08/03/2018 DYNAMIC ARCHITECS DANNY KWAK & JEAN VILJOEN EDWARD BERRY ARCH 1016 TECHNOLOGY 04 RMIT UNIVERSITY SEMESTER 1, 2018
WALL SCHEDULE
DOOR SCHEDULE
WT 01 (EXTERIOR) GLASS QUASI CURTAIN PANEL
DT 01 SLIDING DOOR
WT02 (EXTERIOR) BRICK VENEER
DT 02 SINGLE DOOR
WT03 (INTERIOR) BLOCK VENEER
DT 03 DOUBLE DOOR
WT 04 (INTERIOR) BLOCK VENEER CURTAIN WALL
DT 04 CURTAIN WALL (SINGLE)
WT 05 (INTERIOR) 300mm WALL
DT 05 CURTAIN WALL (DOUBLE) WT 06 (INTERIOR) 200mm WALL
DT 06 FIRE EXIT DOOR
WT 07 (INTERIOR) 100mm WALL
PROJECT TITLE SHEET LIST Sheet Number A000 A001 A100 A101 A102 A103 A104 A105 A106 A107 A108 A109 A110 A111 A112 A113 A114 A115 A200 A201 A300 A301 A303 A304 A400 A401 A402 A403 A404 A500 A510 A600
Sheet Name
SIZE
TITLE SHEET SITE PLAN BASEMENT FLOOR PLAN GROUND FLOOR PLAN LEVEL 01 PLAN LEVEL 02 PLAN LEVEL 03 PLAN LEVEL 04 PLAN LEVEL 05 PLAN LEVEL 06 PLAN LEVEL 07 PLAN LEVEL 08 PLAN LEVEL 09 PLAN ROOFTOP GARDEN PLAN ROOF PLAN REFLECTED CEILING PLAN 01 REFLECTED CEILING PLAN 02 REFLECTED CEILING PLAN 03 ELEVATIONS ‐ NORTH & EAST ELEVATIONS ‐ SOUTH & WEST SECTION A SECTION B SECTION C SECTION D TYPICAL FACADE DETAILS 01 HANGING BOX DETAILS 02 GLASS FLOOR DETAILS 03 GLASS FACADE CONSTRUCTION DETAILS 04 TYPICAL AMENITIES PLAN TYPICAL AMENITIES ELEVATIONS SPECIAL DRAWINGS
SCALE
A1
NA
A1
1:500
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:100
A1
1:100
A1
1:50
A1
1:50
A1
1:50
A1
1:50
A1
1:10
A1
1:10
A1
1:10
A1
1:10
A1
1:10
A1
1:20
A1
1:20
A1
NA
FLOOR SCHEDULE
FT 01 150mm CONCRETE FLOOR
FT 02 300mm CONCRETE FLOOR FT 03 GLASS FLOOR FT 04 TOILET FLOOR
GENERAL NOTES 1.
FT 05 CAFE FLOOR
2. 3.
FT 06 CLASSROOM FLOOR
4.
DT 07 TOILET DOOR
5.
FT 07 LOBBY FLOOR
WT08 (INTERIOR/EXTERIOR) FULL CURTAIN WALL
6. 7. 8.
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS.CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR BELOW. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
0
10
20
30
Notes:
40
Sample Notes
DYNAMIC ARCHITECTS B
Preliminary Design
22/03/18
A
Project Set Up
03/03/18
REV
STATUS:
50
60
70
80
90
100
THE INTENT OF THE DRAWINGS AND SPECIFICATIONS IS TO PROVIDE FOR A WATERTIGHT & WEATHER TIGHT BUILDING. THE CONTRACTOR SHALL REVIEW ALL DETAILS RELATING TO THIS INTENT AND BY BIDDING OR ENTERING INTO THIS CONSTRUCTION CONTRACT WARRANTS FOR ONE FULL YEAR THE ADEQUACY OF THESE DETAILS. SHOULD THE CONTRACTOR TAKE EXCEPTION TO THESE DETAILS, SHALL NOTIFY THE ARCHITECT PRIOR TO BIDDING. ANY DEVIATION FROM THIS GENERAL INTENT SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION. THE INTENT OF THE DRAWINGS AND SPECIFICATIONS IS TO PROVIDE FOR A PLUMB, LEVEL, AND SQUARE STRUCTURE UNLESS OTHERWISE NOTED. ANY DEVIATION FROM THIS GENERAL INTENT SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION. THE BUILDING SHALL BE CONSTRUCTED IN FULL COMPLIANCE WITH ALL APPLICABLE CODES, ORDINANCES AND REGULATIONS AS WELL AS THE DRAWINGS AND SPECIFICATIONS. ANY CODE DEFICIENCIES IN THE DRAWINGS RECOGNIZED BY THE CONTRACTOR SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION. THE CONTRACTOR SHALL BE RESPONSIBLE FOR THE ACCURATE PLACEMENT OF THE BUILDING ON THE SITE AND VERIFY ALL DIMENSIONS AND EXISTING CONDITIONS. DISCREPANCIES BETWEEN DRAWINGS AND ACTUAL SITE CONDITIONS SHALL BE BROUGHT TO THE ATTENTION OF THE ARCHITECT BEFORE BIDDING THE PROJECT OR THE COMMENCEMENT OF WORK. THE OWNER SHALL NOT BE RESPONSIBLE FOR CHANGES TO THE WORK DUE TO THE FAILURE OF THE CONTRACTOR TO FAMILIARIZE HIMSELF WITH EXISTING CONDITIONS DO NOT SCALE DRAWINGS: ALL DIMENSIONS SHALL HAVE PREFERENCE OVER SCALE AND BE FIELD VERIFIED AND COORDINATED WITH WORK OF ALL TRADES. IF NO DIMENSIONS ARE GIVEN OR DISCREPANCIES FOUND, THE CONTRACTOR SHALL NOTIFY THE ARCHITECT FOR CLARIFICATION BEFORE BIDDING OR COMMENCING THE WORK. DETAILS ARE INTENDED TO SHOW METHOD AND MANNER OF ACCOMPLISHING WORK. MINOR MODIFICATIONS MAY BE REQUIRED TO SUIT JOB DIMENSIONS OR CONDITIONS, ALL INCLUDED AS PART OF THE WORK. THE CONTRACTOR SHALL PROVIDE ALL PERMITS AND INSPECTION NECESSARY FOR THE PROPER EXECUTION OF THE WORK IN ACCORDANCE WITH APPLICABLE CODES AND GOVERNING REGULATIONS. THE CONTRACTOR SHALL VERIFY THE SIZES AND LOCATIONS OF ALL MECHANICAL AND ELECTRICAL EQUIPMENT PADS AND BASES, AS WELL AS POWER, WATER AND DRAIN REQUIREMENTS FOR SUCH EQUIPMENT WITH EQUIPMENT MFG. DEVIATION OF THE AFOREMENTIONED REQUIREMENTS SHOULD BE BROUGHT TO THE ATTENTION OF THE ARCHITECT FOR CLARIFICATION.
DESCRIPTION
PRELIMINARY
DATE
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
CLIENT:
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION ARCHITECT:
DYNAMIC ARCHITECTS
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
TITLE:
TITLE SHEET
SCALE AT A1:
DATE:
DRAWN:
As 01.03.18 D.K & J.V indicated
PROJECT NO:
001
DRAWING NO:
A000
CHECKED:
E.B REVISION:
A
Notes: RY BAR
Sample Notes
EET STR
QUEENS BERRY STREET
ON STR EET
Preliminary Design
22/03/18
A
Project Set Up
03/03/18
REV DESCRIPTION
DATE
PRELIMINARY
STATUS:
ETH ZAB ELE
SWANS T
BOUVE RIE STR EET
LEICES TER ST
EET STR
REET
EY KEL BER B
DYNAMIC ARCHITECTS Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
EET STR
CLIENT:
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
DYNAMIC ARCHITECTS TITLE:
SITE PLAN
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
DRAWN:
1 : 500 01.03.18 D.K & J.V
1
SITE PLAN 1 : 500
001
0
10
20
40
50
60
CHECKED:
E.B
REVISION:
A
A001
30
NORTH
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes: A200
Sample Notes
N
1
2
500
3
4600
4
22654
4600
5
4600
ROOM LEGEND 1. TOILET UNISEX 2. LOBBY 3. SHOWERS 4. BIKE STORAGE 5. WORKSHOP 6. SUBSTATION 7. SWITCH BOARD 8. RAINWATER TANK
6
3927
3927
500
A
300
295
WT05
14184
3000
WT06
RAINWATER TANK
B
5611
WT06
08 FT02 FIRE ESCAPE STAIRS 02
WT05
D06
RAINWATER CAPTURED ON ROOF TO BE RECYCLED THROUGH WATER TANK
D03
WORKSHOP 05 FT02
LIFT SERVICE
SWITCHBOARD
D05
D02
20372
400
C
400
07 FT02
SUBSTATION D03
1822
WT03
E
06
2670
WT05
A A300
WT06
400
470
WT03
WT06
2110
W
FT02
WT04
A200
3171
A201
11292
6000
11292
WT06
WT03
230
WT05
6000
D01 WT07
LOCKERS AND BIKE EQUIPMENT TO REFER MANUFACTURER'S DETAIL
FT02 WT05
SHOWERS
D02
LIFT 01
WT05
LIFT 02 WT05
WT07
03
FT04
D07
8251
D
FT04
D07
FT02
04
STAIRS WITH BIKE RAMPS TO SIDES. REFER TO MANUFACTURER'S DETAIL
D02
02
BIKE STORAGE
FT04 IN SHOWER ROOM TO SLOAP FOR WATERPROOFING
WT07
LOBBY
D01
FT04
D02
B
Preliminary Design
22/03/18
A
Project Set Up
03/03/18
REV DESCRIPTION
WT07
DATE
PRELIMINARY
STATUS:
D07 4127
D02 UP
D06
DYNAMIC ARCHITECTS
WT06 TOILET UNISEX 01
FIRE ESCAPE STAIRS 01
SERVICE SHAFT [MAIN]
D07
D07
FT04 D07
D07
D07
D07 -
CLIENT:
---
300
951
E
D07
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
300
9670
300
300
1000
200
ARCHITECT:
6800
DYNAMIC ARCHITECTS
S
WT05 -
DULE HEIGHT 10 BIKE PARKING. REFER TO MANUFACTURER'S DETAIL
3783
---
A201
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
B
-
A301
---
TITLE:
BASEMENT FLOOR PLAN
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
DRAWN:
1 : 50 01.03.18 D.K & J.V
1
Basement 1 : 50
001
0
10
20
40
50
60
E.B
REVISION:
A
A100
30
CHECKED:
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes:
QUEENSBERRY STREET
Sample Notes
ROOM LEGEND 1. LOBBY 2. WORKSHOP EXHIBITION 3. TOILET UNISEX 4. TOILET DISABLED 5. CAFE SERVICE 6. CAFE KITCHEN 7. CAFE COOL ROOM 8. REFUSE STORAGE
A200 N
1
2
3
4
5
6
22654 500
4600
4600
4600
3927
3927
WT01
WT02
500 385
1
D05
WT 02 TO WRAP AROUND WT03 EXPOSING BRICK AND KEEPING BLOCKS INTERNAL
WT06
56 50
D01
OVERHEAD
1500
3000
A
2445
295
215
A600
D03 WT08
21 11
400
B
FIRE ESCAPE STAIRS 02
D06
MAIN FEATURE STAIRS
D06
VOID ABOVE REFER TO LEVEL 1 PLAN
W
LIFT SERVICE
D05
D05
A300
01
WORKSHOP EXHIBITION
FT07
02 FT02 WT06 400
C 20372
WT03
E
470
2500
WT04
4506
D01
05 D02
FT02
WT04
WT06
CAFE SERVICE
WT03
A200
15843
WT01
CURTAIN WALL WITHIN BRICK VENEER WALL REFER TO DETAILS
6000
LANSDOWNE PLACE
A
LOBBY 4000
A201
CURTAIN WALL WITHIN BLOCK VENEER WALL REFER TO DETAILS
OVERHEAD
BOUVERIE STREET
6000
WT04
FT05
DW
1800
WT03
WT03
WT06
WT02
D
WT06
D03 LIFT 02
4127
DYNAMIC ARCHITECTS Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
REFUSE STORAGE 08
D06
WT05
FT02
WT06
D07
FIRE ESCAPE STAIRS 01
SERVICE SHAFT [MAIN]
CLIENT:
D02
FT04 D07
TOILET UNISEX
D07
Disabled Toilet 04
WT07
FT04
03
ARCHITECT: -
DYNAMIC ARCHITECTS
---
WT04
WT02
TITLE:
GROUND FLOOR PLAN
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
S -
B
-
---
A301
---
A201
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
GROUND FLOOR
DRAWN:
1 : 50 01.03.18 D.K & J.V 001
1
DATE
PRELIMINARY
STATUS:
300
951
03/03/18
DW
E
RUBBISH TO FALL INTO COMPRESSOR WHICH TRANSFERS INTO BINS REFER TO MANUFACTURER'S DETAIL
22/03/18
Project Set Up
07
STAIRS BIKE STORAGE
STAIRS WITH BIKE RAMPS TO SIDES. REFER TO MANUFACTURER'S DETAIL
Preliminary Design
A
REV DESCRIPTION
06 FT05
D02
B
CAFE COOL ROOM
2350
LIFT 01
CAFE KITCHEN
0
10
20
40
50
CHECKED:
E.B
REVISION:
A
A101
30
NORTH
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON
Notes: Sample Notes ---
1
A200 B
N
2
---
A301
3
4
5
6
A D A304
CORRIDOR 02 106
VOID UP
B
108
STAIRS 02 43
A201
W
WORKSHOP
STAIRS MAIN
81
286
A A300
LIFT SERVICE 42 MEETING ROOM 01
MEETING ROOM 02
249
250
C
A200
OVERHEAD
E
CORRIDOR 01 84
MEETING ROOM 03
OVERHEAD
D
LIFT 01
LIFT 02
82
83
251
B
Preliminary Design
22/03/18
A
Project Set Up
03/03/18
REV DESCRIPTION
DATE
PRELIMINARY
STATUS:
DYNAMIC ARCHITECTS Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
TOILET FEMALE STAIRS 01 92
E
SERVICE SHAFT [WORKSHOP]
SERVICE SHAFT [MAIN]
TOILET DISABLED 253
233
TOILET MALE 252
CLIENT:
---
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
DYNAMIC ARCHITECTS S A201
TITLE:
LEVEL 01 PLAN
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
DRAWN:
1 : 50 01.03.18 D.K & J.V
1
Level 1 1 : 50
001
0
10
20
40
50
60
E.B
REVISION:
A
A102
30
CHECKED:
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes: Sample Notes
ROOM LEGEND 1. TOILET DISABLED 2. TOILET FEMALE 3. TOILET MALE 4. CORRIDOR 01 5. CORRIDOR 02 6. CORRIDOR 03 7. LECTURE ROOM
A200 N
1
2
500
3
4600 3000
5
4600
6000
6
3927
1200
3927
12294
WT01
3
WT04
A403
FT03 GLASS PANELS TO BE LAYED OUT ACCORDING TO THE MANUFACTURER'S DETAIL. EDGE BEAMS TO JOIN ADJACENT WALLS
565
295 3050
1067
2223
WT03
D02
FT01
DN
10000
FT01
2097
1170
WT 02 TO WRAP AROUND WT03 EXPOSING BRICK AND KEEPING BLOCKS INTERNAL
3000
A
4
4600
CORRIDOR 02
CONCEALED MACHINE ROOM FOR VERTICAL WIND TUNNEL
WT06
D A304
BALASTRADE TO BE INSTALLED ON HIGH POINT
05 FT03
DN
SLOPING FLOOR WITH LECTURE FURNITURES.
B FIRE ESCAPE STAIRS 02
3017
9747
6000
W 5963
A201
VERTICAL WIND TUNNEL TEST ROOM TO BE EXPOSED REFER TO DETAIL
8000
WT01
MAIN FEATURE STAIRS
A A300
LIFT SERVICE VOID
C
E
810
CONCEALED MACHINE ROOM FOR VERTICAL WIND TUNNEL
LECTURE ROOM
06
07
FT01
4436
CORRIDOR 01
D01
5351
WT04 FT01
04 FT01
213400 412
WT04
FLOOR HANGING FROM BEAM ABOVE AND SITTING ON TRUSES BELOW REFER TO DETAIL
WT07 WT06
B
Preliminary Design
22/03/18
A
Project Set Up
03/03/18
REV DESCRIPTION
3033
LIFT 01
LIFT 02
DATE
PRELIMINARY
STATUS:
200
1025
9000
WT06
3290
CORRIDOR 03
WORKSHOP LEVELS DOUBLE HEIGHT
D
STEEL BEAM FROM FT03 TO JOIN INTO FT 05. REFER TO DETAIL
DN
CURTAIN WALL WITHIN BRICK VENEER WALL REFER TO DETAILS 4500
6000
WT05
A200
MODULAR CURTAIN WALL REFER TO FACADE DETAIL
DYNAMIC ARCHITECTS Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
D02 D06
WT06 9700 213
FIRE ESCAPE STAIRS 01
TOILET MALE
01 FT04
02 FT04
03 FT04
CLIENT:
MODULAR CURTAIN WALL TO HAVE OPAQUE GLASS -
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
---
DYNAMIC ARCHITECTS 300
WT05
SERVICE SHAFT [WORKSHOP]
D02
TOILET FEMALE
300
951
1151
E
SERVICE SHAFT [MAIN]
D02
TOILET DISABLED
2600
3426
3000
4127
1500
WT04
RUBBISH TO FALL INTO COMPRESSOR WHICH TRANSFERS INTO BINS REFER TO MANUFACTURER'S DETAIL
S ---
A201
B
-
A301
---
TITLE:
LEVEL 02 PLAN
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
1 : 50 01.03.18 Author Checker
1
Level 2 1 : 50
001
0
10
20
REVISION:
A
A103
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes: Sample Notes
A200 N
1
2
500
3
4600
4
4600
5
4600
ROOM LEGEND 1. TOILET DISABLED 2. TOILET FEMALE 3. TOILET MALE 4. CORRIDOR 01 5. CORRIDOR 02 6. WORKSHOP 7. CLASSROOM 01 8. CLASSROOM 02
6
3927
3927
12294
FT03 GLASS PANELS TO BE LAYED OUT ACCORDING TO THE MANUFACTURER'S DETAIL. EDGE BEAMS TO JOIN ADJACENT WALLS
282
295
WT02
WT 02 TO WRAP AROUND WT03 EXPOSING BRICK AND KEEPING BLOCKS INTERNAL
3854
D01
WT01
D03
WT04
A304
WT03
400
B
D
CLASSROOM 01 07 FT01
544
3050
3000
WT04
2000
1170
A
WT02
535
WT02
C A303
FIRE ESCAPE STAIRS 02
D06
WT06
3
WT04
A402
W 5963
LIFT SERVICE
D05
WORKSHOP
CORRIDOR 02
06
05 FT03
FT02
MAIN FEATURE STAIRS
CLASSROOM 02 WT06
A
08 FT01
A300
LIGHT FITTING TO REFER CEILING PLAN AND MANUFACTURE'S DETAIL 400
C
1607 2000
WT04
304
E
1550
WT04
WT01
WT06
705
CURTAIN WALL WITHIN BRICK VENEER WALL REFER TO DETAILS 4500
6000
OVERHEAD
2000
A200
19777
A201
5600
6000
WT02
8007
2 A400
WT03
D01
CORRIDOR 01
D03
04
STEEL BEAM FROM FT03 TO JOIN INTO FT 05. REFER TO DETAIL
WT06
FT01
683
605
WORKSHOP LEVELS DOUBLE HEIGHT
D02
400
OVERHEAD
1025
D
LIFT 01
FT04 TOILET MALE 03
LIFT 02
D07
3000
4127
3426
02
1664
SERVICE SHAFT [MAIN]
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
TOILET DISABLED 01
D07
D07
FT04 D07
MODULAR CURTAIN WALL TO HAVE OPAQUE GLASS
D07
CLIENT:
-
FT04
---
DYNAMIC ARCHITECTS
S A201
B
-
A301
---
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
300
951
SERVICE SHAFT [WORKSHOP]
---
DATE
PRELIMINARY
STATUS:
TOILET FEMALE
D06
-
03/03/18
DYNAMIC ARCHITECTS
D02
FIRE ESCAPE STAIRS 01
RUBBISH TO FALL INTO COMPRESSOR WHICH TRANSFERS INTO BINS REFER TO MANUFACTURER'S DETAIL
22/03/18
Project Set Up
D02
WT06
WT05
MODULAR CURTAIN WALL REFER TO FACADE DETAIL
D07
WT07
WT05
E
Preliminary Design
A
REV DESCRIPTION
WT05
WT04
B
TITLE:
LEVEL 03 PLAN
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
1 : 50 01.03.18 Author Checker
1
Level 3 1 : 50
001
0
10
20
REVISION:
A
A104
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes: Sample Notes A200 N
1
2
3
3000
6000
4
5
1200
ROOM LEGEND 1. TOILET DISABLED 2. TOILET FEMALE 3. TOILET MALE 4. CORRIDOR 01 5. CORRIDOR 02 6. CORRIDOR 03 7. CLASSROOM 04 8. SEMINAR ROOMS
6
12310
SEMINAR ROOMS
WT02
3050
WT02
WT04 TO CONNECT INTO ADJACENT MULLION
WT04
D04
FT03 GLASS PANELS TO BE LAYED OUT ACCORDING TO THE MANUFACTURER'S DETAIL. EDGE BEAMS TO JOIN ADJACENT WALLS
D04
FT01
08
WT04 2806
A
1170
WT01
D04 WT04 WT04
B
WT04
SEMINAR ROOMS'S WALL ATTACHED TO FLOOR ABOVE. REFER TO CEILING PLAN
C
2
A303
A401
FIRE ESCAPE STAIRS 02
CLASSROOM 04
WT06
07 FT01
LIFT SERVICE
8007
W 5963
VOID
WT02
A
CORRIDOR 02
A300
MAIN FEATURE STAIRS
05
15250
A201
FT03
LIGHT FITTING TO REFER CEILING PLAN AND MANUFACTURE'S DETAIL
WT06
C
E
A200
WT05
2000
311
4500
WT04
CURTAIN WALL WITHIN BRICK VENEER WALL REFER TO DETAILS
WT06
1543
CORRIDOR 01 04
CORRIDOR 03
WORKSHOP LEVELS DOUBLE HEIGHT
06
WT04
WT06
FT01
D02
LIFT 01
LIFT 02
WT04
D02 FIRE ESCAPE STAIRS 01
1664
D07
B
Preliminary Design
22/03/18
A
Project Set Up
03/03/18
REV DESCRIPTION
MODULAR CURTAIN WALL REFER TO FACADE DETAIL
D07
DATE
PRELIMINARY
STATUS:
DYNAMIC ARCHITECTS
D02
WT05
WT05
FT04
WT07
WT06
WT02
03
WT05
3426
3000
WT04 TO CONNECT INTO COLUMN
FLOOR HANGING FROM BEAM ABOVE AND SITTING ON TRUSES BELOW REFER TO DETAIL
TOILET MALE
WT07
WT04
E
WT01
D03
FT01
1025
D
STEEL BEAM FROM FT03 TO JOIN INTO FT 05. REFER TO DETAIL
SERVICE SHAFT [WORKSHOP]
WT06
D02 D07
SERVICE SHAFT [MAIN]
TOILET DISABLED
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
TOILET FEMALE 02 D07
D07
FT04 D07
01
MODULAR CURTAIN WALL TO HAVE OPAQUE GLASS
D07
CLIENT:
---
FT04
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
DYNAMIC ARCHITECTS -
RUBBISH TO FALL INTO COMPRESSOR WHICH TRANSFERS INTO BINS REFER TO MANUFACTURER'S DETAIL
---
S
B
-
A301
---
TITLE:
LEVEL 04 PLAN
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
A201
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
1 : 50 01.03.18 Author Checker
1
Level 4 1 : 50
001
0
10
20
REVISION:
A
A105
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes: Sample Notes A200 N
1
2
3
4
5
6
A
STUDENT LOUNGE 144
B STAIRS 02 139
CLASSROOM 06 A201
145
W
A
LIFT SERVICE
WORKSHOP
140
141
CORRIDOR 02
A300
142
C
A200
OVERHEAD
E
CORRIDOR 01 148
OVERHEAD
D
LIFT 01
LIFT 02
146
147
TOILET MALE
B
Preliminary Design
22/03/18
A
Project Set Up
03/03/18
REV DESCRIPTION
149
DATE
PRELIMINARY
STATUS:
DYNAMIC ARCHITECTS Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
STAIRS 01 152
E
SERVICE SHAFT [MAIN]
SERVICE SHAFT [WORKSHOP]
TOILET DISABLED
TOILET FEMALE
151
150
CLIENT: ---
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
DYNAMIC ARCHITECTS ---
S
B
-
A301
---
A201
TITLE:
LEVEL 05 PLAN
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
1 : 50 01.03.18 Author Checker 001
1
Level 5 1 : 50
0
10
20
REVISION:
A
A106
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes: Sample Notes A200 N
1
2
3
4
5
6
A
B STARIS 02 153
CORRIDOR 02 157
A201
OFFICE
W
A
220 LIFT SERVICE
STAIRS MAIN
154
158
A300
VOID
C
CORRIDOR 03
155
156
E
A200
CORRIDOR 01 160
D
LIFT 01
LIFT 02
162
161
TOILET MALE
B
Preliminary Design
22/03/18
A
Project Set Up
03/03/18
REV DESCRIPTION
166
DATE
PRELIMINARY
STATUS:
DYNAMIC ARCHITECTS Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
STAIRS 01
TOILET DISABLED
163
E
SERVICE SHAFT [MAIN]
SERVICE SHAFT [WORKSHOP]
164
TOILET FEMALE 165
CLIENT: ---
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
DYNAMIC ARCHITECTS ---
S
B
-
A301
---
A201
TITLE:
LEVEL 06 PLAN
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
1 : 50 01.03.18 Author Checker 001
1
Level 6 1 : 50
0
10
20
REVISION:
A
A107
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes: Sample Notes A200 N
1
2
3
4
5
6
A
CORRIDOR 02 PHD ROOM 04
170
223
B STAIRS 02 167
PHD ROOM 03 222
STAIRS MAIN A201
W
171
A A300
LIFT SERVICE 168
WORKSHOP
PHD ROOM 02
169
221
C OVERHEAD
E
A200
PHD ROOM 01 172
CORRIDOR 01 177
LOBBY 257
OVERHEAD
D
LIFT 01
LIFT 02
179
178
B
Preliminary Design
22/03/18
A
Project Set Up
03/03/18
REV DESCRIPTION
DATE
PRELIMINARY
STATUS:
DYNAMIC ARCHITECTS
STAIRS 01 176
E
TOILET DISABLED
TOILET FEMALE
TOILET MALE
255
227
256 CLIENT:
SERVICE SHAFT [MAIN]
SERVICE SHAFT [WORKSHOP]
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
---
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
DYNAMIC ARCHITECTS ---
S
B
-
A301
---
A201
TITLE:
LEVEL 07 PLAN
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
1 : 50 01.03.18 Author Checker
1
Level 7 1 : 50
001
0
10
20
REVISION:
A
A108
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes: Sample Notes
A200 N
1
2
3
4
5
6
A CORRIDOR 02 182
B
STAIRS 02 186
CORRIDOR 03 A201
183
W
STAIRS MAIN
STAIRS MAIN
287
189
STUDENT LOUNGE 01
LIFT SERVICE
A A300
180
185 VOID 184
C
E
A200
CORRIDOR 01 181
D
LIFT 01
LIFT 02
187
188
B
Preliminary Design
22/03/18
A
Project Set Up
03/03/18
REV DESCRIPTION
DATE
PRELIMINARY
STATUS:
DYNAMIC ARCHITECTS Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
CLIENT:
TOILET FEMALE TOILET DISABLED
STAIRS 01
SERVICE SHAFT [MAIN]
190
E
SERVICE CHUTE [WORKSHOP]
---
S
226
TOILET MALE
264
265 -
ARCHITECT:
---
B
-
A301
---
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
DYNAMIC ARCHITECTS TITLE:
LEVEL 08 PLAN
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
A201
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
1 : 50 01.03.18 Author Checker
1
Level 8 1 : 50
001
0
10
20
REVISION:
A
A109
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes: Sample Notes
A200 N
1
2
3
4
5
6
A
CORRIDOR 02 197
B STAIRS 02 195
A201
W
STAIRS MAIN
STAIRS MAIN
STUDENT LOUNGE
260
198
199
WORKSHOP LIFT SERVICE
A A300
196
OVERHEAD
194
E
5325
C
A200
CORRIDOR 01 200
Preliminary Design
22/03/18
A
Project Set Up
03/03/18
REV DESCRIPTION
OVERHEAD
D
B
LIFT 01
LIFT 02
206
205
DATE
PRELIMINARY
STATUS:
DYNAMIC ARCHITECTS
3426
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
TOILET DISABLED STAIRS 01
258
204
E
-
S
225
CLIENT:
TOILET MALE 259
SERVICE SHAFT [MAIN]
SERVICE SHAFT [WORKSHOP]
---
TOILET FEMALE
-
ARCHITECT:
---
B
-
A301
---
DYNAMIC ARCHITECTS TITLE:
LEVEL 09 PLAN
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
A201
1
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
1 : 50 01.03.18 Author Checker
Level 9 1 : 50
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
001
0
10
20
REVISION:
A
A110
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes: Sample Notes
ROOM LEGEND 1. TOILET DISABLED 2. TOILET FEMALE 3. TOILET MALE 4. CORRIDOR 01 5. CORRIDOR 02 6. CORRIDOR 03 7. ROOFTOP GARDEN
A200 N
1 518
2
3
4600
4
4600
5
4600
6
3927
3927
12294
530
FT03 GLASS PANELS TO BE LAYED OUT ACCORDING TO THE MANUFACTURER'S DETAIL. EDGE BEAMS TO JOIN ADJACENT WALLS
A WT01 3000
D01 CORRIDOR 02
FT03 GLASS PANELS TO BE LAYED OUT ACCORDING TO THE MANUFACTURER'S DETAIL. EDGE BEAMS TO JOIN ADJACENT WALLS
05 FT03
WT03
B
WT04
ROOFTOP GLASS PANELS TO BE WATERPROOFED REFER TO ROOF PLAN 6000
WT04
A201
MAIN FEATURE STAIRS
W
ROOFTOP GARDEN
A A300
07 FT01
CORRIDOR 03 06 FT01
STEEL BEAMS AS RAFTERS
C
E 19782
WT04
STEEL BEAM FROM FT03 TO JOIN INTO FT 05. REFER TO DETAIL
WT03 VOID 6000
A200
CORRIDOR 01 D01
04 FT01
WT01
WT03 WT04
PERGOLAR TO PROVIDE SHADE REFER TO ROOF PLAN
D
B
Preliminary Design
22/03/18
A
Project Set Up
03/03/18
REV DESCRIPTION
LIFT 01
LIFT 02
WORKSHOP LEVELS DOUBLE HEIGHT 4127
WT07
WT06
D02
D02
D06
WT06 FIRE ESCAPE STAIRS 01 WT05
E
MODULAR CURTAIN WALL REFER TO FACADE DETAIL
WT05
WT05
TOILET FEMALE TOILET DISABLED
SERVICE SHAFT [MAIN]
01
02 D07
FT04 D07
DYNAMIC ARCHITECTS Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
D02 TOILET MALE
CLIENT:
03 D07
MODULAR CURTAIN WALL TO HAVE OPAQUE GLASS
FT04 -
FT04
DYNAMIC ARCHITECTS
300
951
RUBBISH TO FALL INTO COMPRESSOR WHICH TRANSFERS INTO BINS REFER TO MANUFACTURER'S DETAIL
---
S
B
-
A301
---
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
---
WT06
-
DATE
PRELIMINARY
STATUS:
TITLE:
ROOFTOP GARDEN PLAN
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
A201
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
1 : 50 01.03.18 Author Checker
1
Level 10 1 : 50
001
0
10
20
REVISION:
A
A111
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes: Sample Notes
A200 N
1
2
3
4
5
6
A
HVAC UNIT FOR WESTERN TOWER
B
ROOFTOP GLASS PANELS TO BE WATERPROOFED
A201
W
A A300
ROOFTOP GARDEN BELOW
C
E
A200
STEEL BEAMS HOLDING THE SHADES CLOTHS UP
HVAC UNIT FOR EASTERN TOWER
STEEL PERGOLAR WITH SHADE CLOTHS
B
Preliminary Design
22/03/18
A
Project Set Up
03/03/18
REV DESCRIPTION
D
DATE
PRELIMINARY
STATUS:
DYNAMIC ARCHITECTS
MODULAR CURTAIN WALL REFER TO FACADE DETAIL
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
CLIENT:
MODULAR CURTAIN WALL TO HAVE OPAQUE GLASS
ARCHITECT:
-
E
DYNAMIC ARCHITECTS
---
---
S
B
-
A301
---
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
A201
TITLE:
ROOF PLAN
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
1 : 50 01.03.18 Author Checker
1
ROOF 1 : 50
001
0
10
20
REVISION:
A
A112
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes: Sample Notes A200 N
1
2
3
4
5
6
A D A304
B
A201
W
A A300
C
E
A200
A
D
Project Set Up
03/03/18
REV DESCRIPTION
DATE
PRELIMINARY
STATUS:
DYNAMIC ARCHITECTS Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
CLIENT:
-
E
---
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
DYNAMIC ARCHITECTS TITLE:
REFLECTED CEILING PLAN 01
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
S ---
1
A201
B
-
A301
---
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
1 : 50 01.03.18 Author Checker
GROUND FLOOR
001
1 : 50 0
10
20
REVISION:
A
A113
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes: Sample Notes A200 N
1
2
3
4
5
6
A
B
C A303
A201
W
A A300
C
E
A200
D
REV DESCRIPTION
DATE
PRELIMINARY
STATUS:
DYNAMIC ARCHITECTS Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
CLIENT: -
E
---
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
DYNAMIC ARCHITECTS ---
S
B
-
A301
---
A201
1
Level 3
TITLE:
REFLECTED CEILING PLAN 02
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
1 : 50 01.03.18 Author Checker
1 : 50
001
0
10
20
REVISION:
A
A114
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes: A200
Sample Notes
N
1
2
3
4
5
6
A
B
C A303
A201
W
A A300
C
E
A200
D REV DESCRIPTION
DATE
PRELIMINARY
STATUS:
DYNAMIC ARCHITECTS Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
-
E
CLIENT:
---
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
---
S
B
-
A301
---
DYNAMIC ARCHITECTS
A201
1
TITLE:
REFLECTED CEILING PLAN 03
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
1 : 50 01.03.18 Author Checker
Level 4
001
1 : 50 0
10
20
REVISION:
A
A115
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes: Sample Notes ROOF
ROOF
49500
49500
Level 10
Level 10
45000
45000
Level 9
Level 9
40500
40500
Level 8
Level 8
36000
36000
Level 7
Level 7
31500
31500
Level 6
Level 6
27000
27000
Level 5
Level 5
22500
22500
Level 4
Level 4
18000
18000
Level 3
Level 3
B
Preliminary Design
22/03/18
13500
13500
A
Project Set Up
03/03/18
REV DESCRIPTION
DATE
PRELIMINARY
STATUS:
DYNAMIC ARCHITECTS
Level 2
Level 2
9000
9000
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
CLIENT:
Level 1
Level 1
4500
4500
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
DYNAMIC ARCHITECTS
GROUND FLOOR
GROUND FLOOR
0
0
TITLE:
ELEVATIONS ‐ NORTH & EAST
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
DRAWN:
1 : 100 01.03.18 D.K & J.V
N
ELEVATION NORTH 1 : 100
E
ELEVATION EAST 1 : 100
001
0
10
20
40
50
60
E.B
REVISION:
A
A200
30
CHECKED:
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes: Sample Notes ROOF
ROOF
49500
49500
Level 10
Level 10
45000
45000
Level 9
Level 9
40500
40500
Level 8
Level 8
36000
36000
Level 7
Level 7
31500
31500
Level 6
Level 6
27000
27000
Level 5
Level 5
22500
22500
Level 4
Level 4
18000
18000
Level 3
Level 3
13500
13500
B
Preliminary Design
22/03/18
A
Project Set Up
03/03/18
REV DESCRIPTION
DATE
PRELIMINARY
STATUS:
DYNAMIC ARCHITECTS
Level 2
Level 2
9000
9000
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
CLIENT:
Level 1
Level 1
4500
4500
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
DYNAMIC ARCHITECTS
GROUND FLOOR
GROUND FLOOR
0
0
TITLE:
ELEVATIONS ‐ SOUTH & WEST
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
1 : 100 01.03.18 Author Checker
S
ELEVATION SOUTH 1 : 100
W
001
ELEVATION WEST 1 : 100
0
10
20
REVISION:
A
A201
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Basement Foundation -4000 -4300
0
GROUND FLOOR
4500
Level 1
9000
Level 2
13500
Level 3
18000
Level 4
22500
Level 5
27000
Level 6
31500
Level 7
36000
Level 8
40500
Level 9
45000
Level 10
49500
ROOF
1 2 3 4 5
1 : 100
A
SECTION A
2
A600
6 ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS.CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR BELOW. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
0
10
20
30
Notes:
40
Sample Notes
DYNAMIC ARCHITECTS B
Preliminary Design
22/03/18
A
Project Set Up
03/03/18
REV
STATUS:
50
60
70
80
90
100
DESCRIPTION
PRELIMINARY
DATE
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
CLIENT:
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION ARCHITECT:
DYNAMIC ARCHITECTS
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
TITLE:
SECTION A
SCALE AT A1:
1 : 100 PROJECT NO:
001
DATE:
DRAWN:
CHECKED:
01.03.18 Author
Checker
DRAWING NO:
REVISION:
A300
A
Basement Foundation -4000 -4300
0
GROUND FLOOR
4500
Level 1
9000
Level 2
13500
Level 3
18000
Level 4
22500
Level 5
27000
Level 6
31500
Level 7
36000
Level 8
40500
Level 9
45000
Level 10
49500
ROOF
A B
1 : 100
B
SECTION B
E
D
C
A300
A
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS.CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR BELOW. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
0
10
20
30
Notes:
40
Sample Notes
DYNAMIC ARCHITECTS B
Preliminary Design
22/03/18
A
Project Set Up
03/03/18
REV
STATUS:
50
60
70
80
90
100
DESCRIPTION
PRELIMINARY
DATE
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
CLIENT:
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION ARCHITECT:
DYNAMIC ARCHITECTS
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
TITLE:
SECTION B
SCALE AT A1:
1 : 100 PROJECT NO:
001
DATE:
DRAWN:
CHECKED:
01.03.18 Author
Checker
DRAWING NO:
REVISION:
A301
A
B
4
3
A301
SEMINAR ROOMS 08
2
---
MAIN FEATURE STAIRS
CORRIDOR 02
CORRIDOR 03
VOID
A
05
06
A
1
FIRE ESCAPE STAIRS 02 A
1 A401
Level 4 18000
1 A400
CLASSROOM 01
MAIN FEATURE STAIRS
07
A
CORRIDOR 02
WORKSHOP
05
06
1 A402
Level 3 13500
2 A402
Section 1
C
1 : 20
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS.CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR BELOW. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
0
10
20
30
Notes:
40
Sample Notes
DYNAMIC ARCHITECTS B
Preliminary Design
22/03/18
A
Project Set Up
03/03/18
REV
STATUS:
50
60
70
80
90
100
DESCRIPTION
PRELIMINARY
DATE
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
CLIENT:
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION ARCHITECT:
DYNAMIC ARCHITECTS
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
TITLE:
SECTION C
SCALE AT A1:
1 : 20 PROJECT NO:
001
DATE:
DRAWN:
CHECKED:
01.03.18 Author
Checker
DRAWING NO:
REVISION:
A303
A
-
6
---
5
4
3
B A301
---
Level 3 13500
2 A403
Level 2 9000
1 A403
Level 1 4500
D
Section 2 1 : 20
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS.CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR BELOW. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
0
10
20
30
Notes:
40
Sample Notes
DYNAMIC ARCHITECTS B
Preliminary Design
22/03/18
A
Project Set Up
03/03/18
REV
STATUS:
50
60
70
80
90
100
DESCRIPTION
PRELIMINARY
DATE
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
CLIENT:
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION ARCHITECT:
DYNAMIC ARCHITECTS
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
TITLE:
SECTION D
SCALE AT A1:
1 : 20 PROJECT NO:
001
DATE:
DRAWN:
CHECKED:
01.03.18 Author
Checker
DRAWING NO:
REVISION:
A304
A
Notes:
1
Sample Notes
STAIRS 02 REFER TO PLAN FOR DETAIL
STEEL SHELF ANGLE BRICK VENEER 40mm AIRSPACE 40mm RIGID INSULATION 60mm TIMBER SUPPORT SYSTEM BEHIND INS
WT02 Level 4 18000
ANCHOR BOLTS WITH TIEBACKS
1
20mm GYPSUM
WATERPROOF MEMBRANE
WEEPING HOLE FLASHING WITH SILICONE SEALANT
STEEL SHELF ANGLE AL. HEADER U-MAX 150 FRONT DOUBLE GLAZED 34mm POCKET SYSTEM
C A303
VIRCON LOW E DOUBLE GLAZING
ARGON GAS
WT04
U-MAX 150 FRONT DOUBLE GLAZED 34mm POCKET SYSTEM
AL. SILL PLATE & FLASHING SEALANT
A
Project Set Up
03/03/18
REV DESCRIPTION
DATE
PRELIMINARY
STATUS:
BRICK VENEER
DYNAMIC ARCHITECTS Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
ANCHOR BOLTS WITH TIEBACKS
CLIENT:
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
DYNAMIC ARCHITECTS
Level 3 13500
1
FACADE DETAIL SECTION 1 : 10
2
FACADE DETAIL PLAN
TITLE:
TYPICAL FACADE
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
As indicated01.03.18 Author Checker 001
1:5 0
10
20
REVISION:
A
A400
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes: Sample Notes
3
---
---
3
Level 5 22500
C
A
Project Set Up
03/03/18
REV DESCRIPTION
DATE
PRELIMINARY
STATUS:
DYNAMIC ARCHITECTS Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
Level 4 18000 CLIENT:
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
DYNAMIC ARCHITECTS
D
TITLE:
DETAILS 01 HANGING BOX
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
As indicated01.03.18 Author Checker
1
DETAIL 01 SECTION 1 : 10
2
DETAIL 01 PLAN 1 : 20
001
0
10
20
REVISION:
A
A401
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
Notes:
3
Sample Notes
Level 4 18000
3
B A301
4
B
C A303
3
DETAIL 02 PLAN 1 : 10
4
B A301
3
A
Project Set Up
03/03/18
REV DESCRIPTION
DATE
PRELIMINARY
STATUS:
DYNAMIC ARCHITECTS Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
CLIENT:
1
DETAIL 02 SECTION 01 1 : 10
Level 3
Level 3
13500
13500
2
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION
ARCHITECT:
DYNAMIC ARCHITECTS TITLE:
DETAILS 02 GLASS FLOOR
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
SCALE AT A1:
DATE:
PROJECT NO:
DRAWING NO:
CHECKED:
DRAWN:
1 : 10 01.03.18 Author Checker
DETAIL 02 SECTION 02
001
1 : 10 0
10
20
REVISION:
A
A402
30
40
50
60
70
80
90
100
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS. CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR ABOVE. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
6 5
4
Level 3 13500
Level 2 9000
Level 2
DETAIL 03 SECTION 02
2
9000
1 : 20
Level 1
A
4500
3
1 : 10
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS.CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR BELOW. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
10
20
1 : 10
DETAILS 03 SECTION 01
1
0
DETAIL 03 PLAN
30
Notes:
40
Sample Notes
DYNAMIC ARCHITECTS
A
Project Set Up
REV
STATUS:
50
60
70
80
90
100
DESCRIPTION
PRELIMINARY
03/03/18 DATE
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
CLIENT:
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION ARCHITECT:
DYNAMIC ARCHITECTS
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
TITLE:
DETAILS 03 GLASS FACADE
SCALE AT A1:
DATE:
DRAWN:
As 01.03.18 Author indicated
PROJECT NO:
001
DRAWING NO:
A403
CHECKED:
Checker REVISION:
A
FACADE MODULE 2 SECTION 1 : 20
FACADE 3D
3
Modular curtain wall and individual modules act as structural truss system that incorporates angled glazing and sunshades on western and northern borders. MOdules become continuous curtain wall and space fram 4
5
Interchangeable panels in mullions replace glazing. four variations fitted as per above diagram. refer to grid for placement of panels
A
refer to drawing A404 for module connection details 1
FACADE MODULE PLAN 1 : 20
ALL DIMENSIONS ARE IN MILLIMETERS.DO NOT SCALE DRAWINGS FOR CRITICAL DIMENSIONS.CHECK DRAWING IS TO SCALE BY MEASURING SCALE BAR BELOW. VERIFY ALL DIMENSIONS ON SITE BEFORE COMMENCING ANY WORK, SHOP DRAWINGS OR ORDERING MATERIALS.
0
10
20
30
Notes:
40
Sample Notes
DYNAMIC ARCHITECTS
A
Project Set Up
REV
STATUS:
50
60
70
80
90
100
DESCRIPTION
PRELIMINARY
03/03/18 DATE
Building 100 Victoria St, Carlton VIC 3000 +61 03 9999 8888 +61 03 9999 8887 dynamicarchitects@gmail.com www.dynamicarchitects.com.au
CLIENT:
RMIT SCHOOL OF AEROSPACE ENGINEERING AND AVIATION ARCHITECT:
DYNAMIC ARCHITECTS
SITE:
81/89 BOUVERIE ST, CARLTON VIC 3053
TITLE:
SPECIAL DRAWINGS
SCALE AT A1:
1 : 20 PROJECT NO:
001
DATE:
DRAWN:
CHECKED:
01.03.18 Author
Checker
DRAWING NO:
REVISION:
A600
A