Unimelb MArch 2020 Application Portfolio

Page 1

(Feb. 2017-Oct.2019)

“ Be a serendipper, and design for serendipity.”

Serendipity. [noun] “It is the occurrence of an unexpected fortunate discovery.” - ‘Pleasant Coincidence’

PORTFOLIO Zhuoqing Li 886823 ARCHITECTURE


About Me

E DUCAT I O N University of Melbourne / Melbourne, Australia

2017.2-Now

WAM 76.450 / Bachelor of Design (Major in Architecture) Nanjing Agricultural University / Nanjing, China

2015.9-2017.2

GPA 3.43(4) / Bachelor of Engineering (Major in Landscape Architecture)

R E L E VA NT E X P E R I E NCE East china property Co. in Yantai/ INTERN ASSISTANT

2018.11-2019.1

Architecture drawing check

Z h u o q i ng L i

Construction schedule and budget check (including construction site visiting)

B ir t h: July 1 6 t h ,1 9 9 7 Ema il : l z q 9 7 0 7 1 6 @g mail .com

AA visiting school Chengdu: Marking the city

2019.7

Pho ne: 0 4 2 0 -3 9 1 -6 7 5

SKIL L S

3D Modelling, Grasshopper Testing, Final video Rendering, and Construction

Software: Adobe Creative Suite (PS, AI, ID), Rhino, Grasshopper, AutoCAD, ArchiCAD, Lumion,Unreal Engine.

S E L E CT E D HO NO R S

Languages: Mandarin, English

Melbourne Mobility Award, Univeristy of Melbourne.

2019.5

R EFER EE L IST 01 Design Studio Epsilon: Robyn Pollock (robynspollock@bigpond.com/Tel:0403-794-294) 02 Design Studio Delta: Joseph Gauci-Seddon (joseph.

EXHIBITIONS 2017 SM1: FOD:R Exhibition, AFLK Galley

2017.6

2018 SM1: MSDX Exhibition-Digital Design and Design Studio Beta

2018.12

2019 SM1: Construction Design Final Exhibition, DULUX Gallery

2019.6

2019 SM1: MSDX Exhibition- Construction Design Best Models

2019.7

gauciseddon@unimelb.edu.au) 03 Design Studio Gamma: Andrew Murray (andrew. murray@unimelb.edu.au/Tel:0402-109-037) 04 Digital Design: Samuel Lalo (samuel.lalo@unimelb. edu.au/Tel: 0414-455-475) 05 Construction Design: Michael Gerard Collins (m.col@me.com/Tel:0434-207-203)


Z hu o qi n g Li Selected Works 2017-2019

01 A Healing Journey Community Health Care Center | 461 Lygon Street, Melbourne BA 3-2 Design Studio Epsilon| Individual Work

02 L Bridge-Idea Machine in the City The Library and The City | 124 -140 Little Bourke Street, Melbourne BA 3-1 Design Studio Delta| Individual Work

03 Powered by The ‘Green’ Living Neighbourhood | 2-10 MacArthur Place, Melbourne BA 2-2 Design Studio Gamma| Individual Work

04 Spiral Pavilion Parametric and Fabrication | Queen Victoria Garden Pavilion, Melbourne BA 2-1 Digital Design| Individual Work

05 Case Study: ‘Glass House’ Analysis Olympic Park Community Facility (The Glasshouse) Section H | Melbourne BA 3-1 Constrcution Design| Individual Work


A-Cemetery Rd Facade

01 A Healing Journey Bachelor Third Year SM2 ARCH30002 Design Studio Epsilon| Individual Work |Tutor: Robyn Pollock (robynspollock@bigpond.com) This studio project is a community health centre, a facility dedicated to providing services that not only address the needs of the local community but support existing public and private health facilities. The brief places an emphasis on education and prevention across differing cultural groups and sectors of the community. Page 1


B-Lygon St Entry and Street Interface

on

A

cti

Se

Ceme

Open Lygon St Streetscpae Create Entry Courtyard

tery Ro

ad cti

Se on

Noise Buffer

B Build a Wall Along Cemetery Rd Isolate the open space with traffic

Tram Stop

Multi-purpose Room Children Occasional Care

Ly tt

on

Str

ee

t

m Tra

Children Toilet

t

tree

nS

o Lyg

Office (Shared)

Multi-purpose Room Children Occasional Care (No entry from this level)

e

Lin

Waiting Space

Retail Waiting Area

Threapy Studio (Gym)

Play Room

Consultation Room (Small) Office (2p)

Siting Diagram

er

et

Tram Stop

m Ce

y

Rd

e

Rd

En

Consultation Room (Small)

nc

tra

ry

Consultation Room (Small)

Gym Yoga & Meditation Place

Retail

Waiting Space

D

Meeting Space

E

DIY Cooking Station

ete

m Ce

Consultation Room (Small)

Consultation Room (Small)

Storage Room

Consultation Room (Small)

Retail

Consultation Room (Small)

Cafe

Consultation Room (Small)

Office (2p) Consultation Room (Small)

Meditation Room Storage Space Office (2p)

Meditation Room

Consultation Room (Small)

Office (4p)

Threapy Room

Change Room

Consultation Room (Small)

Common Room Meeting Room (6p)

Consultation Room (Small) To Roof Terrace

Relaxing Decking Atrium

Inspiring Gallery

C

Reception

Meeting Space

p kS

Meeting Space

ain

En

e

nc

M

Child Playground (Zen Garden)

Meeting Room

Multi-Purpose Room (Parental Skill Workshop with Kitchen)

Consultation Room (Large)

Lygon St

Lo

tra

Consultation Room (Large)

Male Toilet

Consultation Room (Large)

Relaxing Balcony

Consultation Room (Large)

Kitchen

Consultation Room (Large)

Consultation Room (Large)

Consultation Room (Large) Accessible Toilet

Office (exec.)

Office (4p)

Print Room

Meeting Room (4p)

Play Room

Consultation Room (Large)

Meeting Room (6p)

Relaxing Balcony Print Room

Waiting Space

Meeting Space

Female Toilet Consultation Room (Large)

Kitchen

Consultation Room (Large) Consultation Room (Large)

Waiting Space

Male Toilet

Multi-Purpose Room (Inspiring Reading Lodge)

Office (exec.)

Office (2p)

Consultation Room (Large)

Consultation Room (Large)

Play Room

Vegie Garden

Staff Break Out Space (with Kitchenette)

Office (2p)

Consultation Room (Large)

Consultation Room (Large)

Female Toilet

Accessible Toilet

Meeting Space

Consultation Room (Large)

Consultation Room (Large)

e

c

Air

F

Relaxing Balcony

Speech Pathology Threapy Room

Foyer ac

Meeing Room 12p

Speech Pathology Threapy Room

Consultation Room (Large)

Consultation Room (Large)

Female Toilet

Male Toilet

Female Toilet

Male Toilet

N

Set Down Place

Little Lytto

n St

GF Plan

1F Plan

2F Plan

3F Plan

Page 2


Leo became a new single dad as his partner passed away. His son Kevin is going to be 6 years old. He works as an investment manager.

Lelia became a single mum three years ago after the divorce. She is an advertising model and an amateur photographer. She is living with her six-year-old daughter, Rosie.

Leo became a new single dad as his partner passed away. His son Kevin is going to be 6 years old. He works as an investment manager.

Concept Diagram on Program Distribution Lelia became a single mum three

ROOFyears TERRACE ago after the divorce. She is an PRIVATE OFFICE

STAFF BREAKOUT

CONSULTATION

LIBRARY AND SEMINAR SPACE

CONSULTATION

PARENTAL SKILL WORKSHOP

INSPIRING GALLERY

FOYER

MEETING SPACE

advertising model and an amateur photographer. She is living with her

PRIVATE OFFICE six-year-old daughter, Rosie.

SHARED OFFICE

YOGA&MEDITATION CONSULTATION

RETAIL

GYM&THREAPY

Lygon Street Interface Winter Northern Sunlight

CHILD OCCASIONAL CARE Reveal Conceal

Concept Diagram on ‘Healing Journey’

“ ILLNESS ” (Not Feel Well)

Reveal Space - [Assist-healing]

Conceal Space- [Self-healing/Private Healing

Leo Lelia

Reveal Space - [Assist-healing]

with the help of professionals ]

Open Middile Space and Ground Floor

Two ‘Contained’ Wings

Section A-Different Experience on Conceal and Reveal Space

‘The Corner’

Cemetery Rd Facade

Section B- Facade Interaction and Interior Design

Page 3


C. First Encounter - Foyer with Atrium

E. Self Healing - Meditation Space

D. In-Between (Buffer Space) - Waiting Space

F. Assist Healing - ‘Blur with Garden’ Meeting Space

Page 4


Library ‘IN’ the City-On Site Isometric Drawing

02 L Bridge- 24/7 Idea Machine in the City Bachelor Third Year SM1 ARCH30001 Design Studio Delta| Individual Work |Tutor: Joseph Gauci-Seddon (joseph.gauciseddon@unimelb.edu.au) The studio project “The library and the city” is designing a library in ‘CHINA TOWN’ of Melbourne, which is used to deal with the relationship between ‘The Abstract and The Concrete’, ‘The Method and The Madness’, ‘The Library and The City’, and ‘The Public and The Individual’. Page 5


3F

Original Shape

2F

Duplication

Original Shape

1F

Fragmented Reading Floor

Addition

GF

Repetition of Rotation

Basement

Form Iteration Diagram

Exploded Isometric Drawing

Fragmented Reading Space

Page 6


Ground Floor Plan

N

Second Floor Plan

Section-Intersected Volumes

Page 7


Little Bourke Street Interface

Basement-Traditional Evocative Book Ceremony

Entry Stepped Plaza with Void

Stepped Study Space

Page 8


Overall Site View

03 Powered by The ‘Green’ Bachelor Second Year SM2 ARCH20002 Design Studio Gamma| Individual Work |Tutor: Andrew Murray (andrew.murray@unimelb.edu.au) The studio project ‘Living Neighbourhood’ is reforming a mixed-use Community, which places the focus on incremental densification and activation of the neighbourhood context. This project is about designing infill housing, communal spaces and shared facilities, green infrastructure, and laneway activation tactics, as a coherent scheme to articulate a vision of a living neighbourhood. Page 9


Massing

Section B

Connection

Section A

N

Green Space

GF Plan

1F Plan

2F Plan

Roof Plan

Page 10


Yoga and Life

Coffee Menu

The Moon and Sixpence

Section A-Program Distribution and Interaction

Section B-Interior Program and Relationship with Context

Page 11


Mac Arthur Place Interface

Communal Courtyard

Second Entrance -Dynamic Laneway

Living Space Under Raked Roof

Page 12


Spiral Pavilion Night View

04 Spiral Pavilion Bachelor Second Year SM1 ARCH20004 Digital Design| Individual Work |Tutor: Samuel Lalo (samuel.lalo@unimelb.edu.au) This project addresses the design generating process through digital fabrication (Waffle Structure & Boolean Volume), and the idea generated through digital process is applied to the design of Queen Victoria Garden Pavilion. The representation is equipped by Unreal Engine 4 to achieve real time render and provide VR experience to audience. Page 13


Lofts

Key

1.2

{0,0,0}

{200,50,200}

{140,50,200}

{50,50,200}

Point Attractor Curve Attractor

{50,50,200}

Grid Point

Pyramid panels with small triangular- shape openings created by weavebird define a boundary between exterior and interior. The small triangular-shape openings working as thresholds allow light to come into interior space from different a direction, which creates interesting shadows in the interior space.

{200,50,155}

{200,50,80}

{50,200,50}

{170,200,50}

{Index Selection}

{Index Selection}

{Index Selection}

Paneling Grid & Attractor Point

2.2

Small triangular shapes on the 2D surfaces are designed to let the light come into the interior space and create interesting shadows.

{115,126,116}

A hollow waffle structure creates an interior volume. Moreover, the in-between spaces of hollow structure also can be used.

{160,154,4}

{Attractor Point Location}

{Index Selection}

{Index Selection}

Paneling

Panels are bigger at the bottom and top parts of the surface. I use the ‘tripartite method’ on modern architecture to divide the whole building into three parts: top, middle, bottom. Enlarging the top and bottom parts can increase the size of openings at the bottom and top, which lets people enjoy better view.

3.2

Task 1-Isometric Drawing

+

Parametric Diagram

+

The Waffle

The Panel

The Space

Page 14


Grid Manipulation

Key {0,0,0} {0,100,150}

Point Attractor Curve Attractor

In the middle, the cube is trimmed by two intersected spheres, and then the middle courtyard is created. The middle courtyard works as a gathering space and main circulation area.

Grid Point

{0,0,150}

{100,0,150}

{100,0,0 }

{Curve attractor}

{123,127,48} {Point Attractor}

{Curve Attractor}

Sphere Distirbution

{0,100,150}

{0,0,150}

{100,0,150}

The octahedron in the right corner touches the surface and creates an entrance. {100,0,0} {123,127,48}

{Curve attractor}

{Point attractor}

The octahedrons in the corner touch the middle spheres to create an entrance between middle courtyard and space on both sides.

{Curve attractor}

Brep Transformation

Task 2-Isometric Drawing

{0,100,150}

{0,0,150} {100,0,150}

{100,0,0} {123,127,48}

{Platonic Tetrahedron}

{Platonic Icosahedron}

Parametric Diagram

{Platonic Octahedron+Sphere}

The Scale

The Volume

The Space

Page 15


Plan View at Night-Shadows The topography is designed to integrate with the pavilion, which offers a possibility for people to access the central part of the enneper canopy and the seminar place on upper level.

The panels made by steel frame are designed to be thresholds that allow light to come through and create interesting shadows in the interior space; At night, it allows light in the interior space to come out and show the patterns.

The enneper surface works as a floor plane for upper level and a roof for the underground part.

Underground Space

The glass panels with steel frame are used in the underground concert place to allow people to enjoy the concert from outside. The enclosure space formed by the glass panels is also designed to capture the sound of the musical quartet.

Canopy Detail

Task 3-Isometric Drawing

Page 16


ANNOTATIONS 1

2

Roof Sheets and FIxtures 1a. Roof sheeting: Zincalume Lysaght Kliplock 406 (BMT 0.48mm) with 18mm thick Plywood backing (Design Load: 2*250kg per span). The roof sheet has 406mm coverage with overlapping rib and underlapping rib. The roof sheets are overlapped and bolted (using a clip) to prevent moisture coming into the roof structure through the gap between two sheets. All the sheets are located towards prevailing weather for wind resistance and galvanised for rust protection. 1a. KL65 Clip. This fixing clip is used to fix KLIP-LOK 406 to steel or timber supports without puncturing the sheet, which helps to keep the straight lines of roof remain smooth without exposed fasteners. 1b.18mm ply backing: It is used under the roof sheet to provide a surface for roof sheet to be fixed using clip. BM and VPM: Considering the proximity of Yarra river (high moisture content), breather membrane (BM) and Vapour Permeable Membrane (VPM2) are applied to all areas of roof sheet over plywood lining. 2a. VPM2: VPM2 prevents the entry of liquid water and dust from outside but it allows water vapour to pass through it. 2b. BM: The breather membrane is water-resistant (as well as snow, dust and so on) but air-permeable, which is used to prevent condensation and allows air to circulate. BM can also act as a wind barrier to restrict the movement of air through the wall.

3

100mm Permastop (R(m)2.5) building blanket: with heavy duty foil sisalation adhered The roof insulation is used to slow the heat transfer in roof area. The insulation is installed with 75mm 'Roof Rack' thermal spacer installation system. The insulation spacer is applied between the roof structure and the external membrane to create the space required for insulation blanket to recover to its 100mm full nominal thickness between purlins.

4

Wire Safety Mesh: The dimension of wire safety mesh is 100*115*1.25mm. It is installed under insulation layer and is used to provide fall protection for roof installers and offers long-term fall protection for repair workers and maintenance. The safety mesh is installed with 15mm lag between purlins to allow insulation to recover to 100mm nominal depth.

5

Folded Colorbond Flashing: The roof flashing is installed for achieving a watertight roof. It can effectively prevent rain water from running down and entering the building.

6

Custom Folded Aluminium Capping: The capping is custom folded to ensure the detail is matched and maintained. It is placed on the gap between roof and claddings. It can not only work as an edge finish layer but also prevent the unwanted elements such as water and dust into the building. It is intalled with a silicon seal. 6a. Packer is bolted to capping ang then bolted to a steel studs to hold the capping in right place.

7

Packer: the packer is placed between the roof ply backing and column SC9(150UC23), which is used to fit the 5-degree pitched roof to the flat top of column. The packer is fixed with SC9 top plate by bolting.

8

Wall Girt: the wall girt is connected to the universal column SC9 (150UC23) The cleat plate is bolted on the bottom of wall girt and it is welded to SC9. It is used fixed the cladding with EW11. 8a. Packer is bolted on the top wall girt and then it is fixed to a steel stud, which is used to hold the wall girt in right space. 8b. Adjustable girt hanger It is primarily used to assist in alignment and stabilization of fascia beam (FB26). The wall girts are attached to a slotted channel in the girt bridging assembly.

9

Two Universal Column SC9: Type-150UC23 Hot Rolled. The column is fixed to R.C. beam 1B37 by 12 base plate on 20 NOM. GROUT (4M20 chemset anchor with 100 edge distance and 150 embedment). The top of it is fixed to the roof ply backing by bolting to a packer with 5 degree pitched top(detail 1). It is a structural column which is used to transfer the load from roof to 1B37.

10

11

12

FB24(250PFC) to SC9 Connection FB24 (250 PFC) is fixed to the Column SC9 (150UC23) by using 12 cleat plate, 6CFW 2M20 8.8/S BOLTS (TYP.). The 12 mm thick cleat is welded to column SC9 by 6 mm wide continuous fillet weld and use 2M20 bolts to fix cleat with FB24.

13

FB26(250PFC) to SC9 Connection FB26 (250 PFC) is fixed to the Column SC9 (150UC23) by using 12 cleat plate, 6CFW 2M20 8.8/S BOLTS (TYP.). The 12 mm thick cleat is welded to column SC9 by 6 mm wide continuous fillet weld and use 2M20 bolts to fix cleat with FB26. (detail 2)

14

Purlins to FB25 Connection Fascia beam FB25 can not only works as a fascia to cap the roof structure, but also can supported the purlins. FB25 is a primary structure and the purlins are fixed to FB 25 with 6CFW 2M20 8.8/S BOLTS (TYP.).

15

Purlins bridging: 3 rows bridging Purlins bridging is installed to enhance purlin performance and to assist with the erection of roof sheeting.

16

Sag Rods: Sag rods are used to prevent the sagging of an open-web steel joist that is used as a purlin with its depth at right angles to a roof slope. It is used in connection with purlins to take the component of the loads which is parallel to the roof.

16

Bracing: It is used for lateral resistant, which is important in earthquake resistant and wind resistant. The bracing is fixed to the column by using 12 cleat plate, 6CFW 2M20 8.8/S BOLTS (TYP.). The bracings are placed in the holes on beams.

4 2b

12

Exploded Roof Layers

9

14 5

RL 14.75- TOP OF SOUTH PARAPET

18

6a

Moved-in roof truss and column SC9 (to show the load path) The roof truss RT12 and another SC9(150UC23) are moved from the east part to show the load path (roof sheet-purlins-roof truss-columns-footings-foundation). Purlins are fixed to the roof truss by a cleat welded with roof truss. The 8-cleat plate is fixed to purlins by 6CFW 2M12 4.6/S BOLTS (TYP.). The roof truss is fixed with column SC9 by 12 cleat plate,6 CFW 5M20 8.8/S BOLTS (TYP.). 12 thick full depth stiffeners are welded between two flanges of column by 6CFW on both sides. 18a. Top plate of Roof Truss-150UC30 It is hot rolled and galvnised for rust protection. 18b.Stiffener are secondary plates attached to SC9 flanges to stiffen them against out of plane deformations. 18c. Bracing- 90EA It is used for lateral resistance of roof truss.

8b

8

10b

18a 18b

10c

18c 6

10a

10d

J 4

3

18

16 2e 14 2d

2

Metal Cladding MC1 (with 5-degree rotation to fit the inclined window): Aluminium Sheet Panel. MC1 cladding is installed with a water-proof membrane (Galvanised sheet for rust protection: 0.3 BMT Bluescope Zincalume G300) and a rain-screen (5.0 mm thick flat aluminium sheet with 1,0mm pre-weather Anthra Zinc insert), which is used to prevent moisture come into the building though the cladding. 2a. Wall girts- the wall girt is connected to the universal column SC9 or 1B37 with cleat connection. It is used to connect the cladding system with the EW11. 2b. Top hats-22 top hats (run horizontally) and 44 top hats (run vertically) with mid span are used to fix the wall girts to MC1. The top hats are fixed to wall girts by cleat. An aluminium backing plate is mechanically fixed between the top hats and cladding system. 2c. Aluminium backing plate: It is fixed to the cladding with a VHB tape in between. The backing plate is used to provide stiffness and rigidity by using friction force. 2d. Custom folded Z section: It is used to fix the gap between two panels of MC1, which is contributes to both waterproof and aesthetic (hiding the structures behind the cladding). The flat part of this Z section is cleated to 40 top hats. Z section is connected to a piece of ply backing with MC1 infill and 20*20 packer. 2e. Weather proof membrane: it is used to prevent moisture from coming into the building (It is a response to the proximity to Yarra river.)

3

150mm steel studs: They are main structural elements of EW11.

4

Insulation- IN1- 110mm Thick Soundscreen: Acoustic insulation is used on the exterior wall to prevent the unwanted noise into the house.

5

FC1(Fibre cement sheet): The 6mm fibre cement sheet is used on wet area lining, which is used for waterproofing (considering the proximity to Yarra river). It is installed with Flush joints and square set corners.

7

Folded aluminium sill trim: The sill trim is located under the MC1 sheets, which is used to hold pieces in place and slope downward to drain water.

8

1:25 Model

13 9

Cladding MC3: VM Zinc. MC3 is installed with VM Zinc Flat Lock Seam Panel System, which means overlapping the panels for waterproofing. 8a In this part, MC3 is fixed on a ply backing and framing, and then the backing is fixed to the window jamb. A waterproof membrane is placed between backing and window jamb, which is used to prevent moisture come into the building. (Detail 2) 8b In this part, the MC3 cladding is fixed to an inclined packer (5 degree slope), and then the packer is fixed the 1b37 by cleated top hats. the packer is used to fill the gap between inclined MC3 and vertical beam surface. 8c In this part, MC3 is fixed to EW23, and in the corner, it is fixed to the other window jamb with a flashing lap into the window jamb.

Window sill: It is used to hold window jambs in place and slope downward to drain water.

10

Double glazed window: The window is double-glazed with a packer in between.

11

Sarking: It is installed in EW23 to make the insulation work more efficiently and prevent moisture or dust to come in.

12 13

Universal Column 150UC23: It is a primary structure using for load transfer.

15

Double-layer 13mm water proofing plasterboard: This area is a bathroom, so it is easy to get wet. The waterproof plasterboards are applied to WT31A (both inside and outside to prevent the moisture come through the wall.

16

Insulation-IN2- 88mm Thick Soundscreen:It is used to prevent the toilet or water pipe noise from coming through the wall. Reinforcement for 1B35: N12 300 CTS ligature with 3 layers of N16 reinforcement bars. The concrete cover of this beam is 50mm and concrete strength is 40Mpa and the reinforcement has a joint to prevent the ligature from touching the concrete surface and even being exposed.

17

18

19

20

12 1

10

2b

11

8c

FFL RL 8.25- LEVEL1

2

5

6

Insulation-IN1- 110mm Thick Soundscreen: It is used on the exterior wall to prevent the unwanted noise into the house. 51mm steel studs: They are structural members for EW23.

14

Plasterboard wall lining: 13mm plasterboard.

6

7

6

15

Universal Column SC9: Type-150UC23. The column is fixed to R.C. beam 1B37 by 12 base plate on 20 NOM. GROUT (4M20 chemset anchor with 100 edge distance and 150 embedment)(Detail 1). It is a structural column which is used to transfer the load to 1B37.

1a

11

EW23(150+50mm steel studs) to FB24(250PFC) Connection The 200mm steel top plate sits on the top of EW23 is welded to the steel stud. Fascia beam FB24 is bolted to the steel top plate and covered by MC3 cladding system.

1

1b

1c

EW11- External wall with MC1 Cladding 10a. MC1 Cladding System: MC1 cladding is installed with a water-proof membrane (Galvanised sheet for rust protection: 0.3 BMT Bluescope Zincalume G300) and a rain-screen (5.0 mm thick flat aluminium sheet with 1,0mm pre-weather Anthra Zinc insert), which is used to prevent moisture come into the building though the cladding. MC1 cladding system is fixed to the wall girt by double layers of top hats. 10b. Steel Studs: 150mm steel studs. The steel studs are welded to top and bottom plates to hold a space for EW11. FB26 is fixed with the top plate by bolting. All the steel studs for external wall is cold formed framing. 10c. Wall Bracing: WB1-75*8 MS Plate (Mild Steel Plate- Mild steel has good ductility and malleability.) It is used for lateral resistant, which is important in earthquake resistant and wind resistant. The wall bracing is fixed to the column by using 12 cleat plate, 6CFW 2M20 8.8/S BOLTS (TYP.). The 12 mm thick cleat is welded to column SC9 by 6 mm wide continuous fillet weld and use 2M20 bolts to fix cleat with WB1. 10d. Noggings: A mistake of wall bracing can be seen in the construction photo-THE WALL BRACING GOES THORUGH THE WALL STUDS BY CUTTING THE STUDS, WHICH CAN WEAK THE STRENGTH OF WALL STUDS. Therefore, noggings are placed between the wall studs (fixed to the studs by welding) to increase the stiffness and strength and offer rigidity to a framework.

ANNOTATIONS

2a

3

2c

8a

CL RL 6.95- LEVEL0

Tendons for post-tensioned concrete: This tendon contains 4 Dia. 12.7mm strands and be placed in the post-tensioned concrete slab/beam. It is used to apply tension force to the strands. After everything is tensioned, grout is poured in via the tubes shown in the diagram below to help anchor the tendons in place. Ground floor structural column:C40. This bearing capacity of this column is 40Mpa, and the reinforcement of it is 8N20 with R10ligature@300CTS. For this chosen 2*2 area, GF has no structural element to support the FF. This column is the nearest structural element, so it is moved to show the connection with FF beam. The reinforcement bars are bent to connected with the reinforcements on 1B56, then the loads of FF can be transferred to GF and then to the footing and foundation by this column. First Floor Beam 1B36 Rebate: The rebeate is cut to fit the window in and there is a packer put on the rebate to fit the inclined window with horizontal rebate surface.

8b 9

20

2a 17 19 This GF column is moved from orginal position to show the load path and connection with 1B56.

Peel Line 2

J 6 Peel Line 1

7

18

This tendon is moved from orginal position to show the form.

Axonometric Drawing

Legends:

Welded Connection

H

05 Case Study: ‘Glass House’ Analysis Bachelor Third Year SM1 ABPL30041 Construction Design| Individual Work |Tutor: Michael Gerard Collins (m.col@me.com) The case study ‘Glass House’ is a multiple-functional centre for local football clubs located in Collingwood, which is designed by Croxon Ramsey Architects. The axonometric drawing and the 1:25 model are used to reveal the construction technology and detailed design of a 4m*6m section of this building. Page 17


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