ARCHITECTURE PORTFOLIO 2014 THOMAS LO
Thomas Lo +61 411 825 883 thomaslo@live.com.au 8 Lemair Ave, Glen Waverley VIC 3150, Australia
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Intern SAA Architects Pte Ltd (Singapore) • Worked on a residential project as part of Nangyang Technology University • Effectively using Revit and CAD to design public staircase to accurately fit into a larger Revit file • Produce detail drawings of elevator interiors with CAD for tender • Designed elevator interior with a combination of Revit and Photoshop • Prepared drawings for presentation • Helped with fire-exit weaver • Produced and laid out plan, elevation and section drawings for tender
CAREER OBJECTIVE To build a career in the field of architecture, working in a stimulating environment where I can offer and develop my creativity and problem solving skills. PROFILE SUMMARY • • • • •
Excellent written and oral communication skills demonstrated by frequent contact with clients in various freelance graphic projects Motivated and quick learner – as displayed through proficiency in various software Team player – working in a small team to drive development of Classical Music ensemble ANON. Problem solver with the ability to evaluate from different perspectives Language: English, Cantonese, Mandarin (Intermediate)
Intern The Architectural Design and Research Institute of Guangdong (Associate designers of the Guangdong Museum) • Worked in a small team to recover an old Hospital construction plan • Assisted with research and prepared presentations for clients • Worked in a challenging, fast-paced environment • Efficient use of CAD and Photoshop
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PROFICIENT SOFTWARE • • • • • • • •
Adobe: Photoshop, Illustrator, Indesign, Lightroom, Premiere Pro Sketchup Rhino 3D Autocad 2D Revit 3DSMAX Mentalray Rhino Vray
EDUCATION The University of Melbourne Master of Architecture
Graphic Designer Freelance • Engage with clients to fully understand desired brief • Creative thinking to produce multiple solutions to a problem • Work efficiently with Photoshop, InDesign and Illustrator to meet tight deadlines
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Mar 2013 - present
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Jan 2009 – Dec 2012
The University of Melbourne Bachelor of Music (Honours) Major: Violin Performance; Breadth Studies: Architecture Huntingtower School VCE ENTER Score: 91.5 English, Chinese, Mathematics, Visual Communications, Art, Music Solo, Music Group WORK EXPERIENCE Co-Founder & Creative Director ANON. – Classical Music ensemble • Provide direction and artistic concepts for the entire project • Oversee the cohesiveness of each project in all materials • Design most materials including flyers, posters, photography, websites, social media materials and films • Organize and distribute materials to different designers collaborating and quality control • Organize photoshoot from ideas with photographer to lightings
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! 2001-2008 !
May 2013- present
Concertmaster String Orchestra University of Melbourne • Coordinated and organised materials for musicians in section • Liaise with with conductor and other section leaders in critical decision-making processes Photographer Freelance • Develop creative concepts that reflect desired brief • Effective communication working within small teams on set • Keen eye for detail post-processing with Adobe Lightroom and Photoshop
Dec 2013 - Feb 2014
!! !! !! !! Jan 2012 - present !! !! !! Jan – Nov 2012 June – July 2012
July 2011 - present
ACHIEVEMENTS & INTERESTS
• • • • • •
Work displayed on University of Melbourne ABP main website (Banner) Work exhibited in the Wunderlich Gallery as a part of TowerTower exhibition Albert Marie Diamant Bequest and Corinna D’Hage Mayer String Scholarship as part of my music studies in University of Melbourne Music – exploring the potential of collaboration between Classical Music and other creative types Shortlisted Nissan International Design Competition: Think Outside The Parking Box Photography – regular shoots for a fashion blog
REFERENCES
Darryl D. Toma Architectural Executive/ BIM specialist at SAA Architects Pte Ltd Contact: darryltoma@gmail.com
!Available upon request
INDEX 1
Symphony of Gifts
7
Levcube Office
13
19
35
Folding House Reverse Venturi Pod
25
Dandelion Tower Highrise
39
Monad House
43
Secret Garden Series
49
Neobit X
53
54
Artworks Photos + Designs
55 57
SAA internship anon. set design
SYMPHONY OF GIFTS
Art defines culture; culture defines city. The auditorium embraces these most precious elements, wrapped as a gift and celebrated with the urban landscape and citizens
DESIGN PROCESS
The design of the Auditorium results from one simple impulse: the desire to give the community a focus and identity. The building’s organic appearance stands out from the norm by upsetting the orthogonal grid of the area’s masterplan. Outside, the exterior resembles a sphere surrounded by a shell, giving the appearance of the concert hall levitating in mid air.
ELEVATIONS
From the glass entrance leading into the lobby, two curved walls separate the ground floor into three public areas. Looking up, the sphere appears to be hanging in mid air, with its base seamlessly forming part of the ceiling. In contrast to the darker polished concrete floor, the sphere’s polished timber and glass surface becomes the centre of attention.
A. B.
C. A.
1ST FLOOR
4. 1. A. Escalators B. Auditorium C. Front Door 1. Main Entrance 2. Back Entrance 3. Lobby 4. Ramp to Underground 5. Ticket Area 6. To Mezzanine 7. Public Space
3.
6.
5.
2.
7.
GROUND FLOOR
SKETCHES
The Auditorium aims to be recognised as a premier concert venue, capable of hosting a wide range of performance arts genres, including classical and jazz music, dance, and theatre. With luxury and comfort in mind, Mezzanine bar lounge at the end of the building features a glass roof, while a basement function space is easily accessible via the ramp on the left of the building.Â
LEVCUBE OFFICE By levitating off ground, the building is able to give back the ground floor and the pedestrians their space, shades, and short cuts they deserve
DESIGN PROCESS
SECTION SOUTH - NORTH
FLOORS EXPLODED VIEW
ELEVATIONS
Lev Cube is an office building located at the intersection of two main roads. Situated in the business district, the Lev Cube is rotated slightly towards the junction to open itself to the public. The concept of the building is to create a facade that wraps around the central cube, creating a levitating illusion. The building features a large glass column containing five elevators as well as a double helix staircase. In order to accommodate the needs of different companies, the building holds no partition, allowing companies to freely plan and decorate their respective floors.
FOLDING HOUSE Curves as one whole structure that creates multiple partitions and liveable spaces.
DESIGN PROCESS
ELEVATIONS
The pre-fabricated units are made symmetrical to reduce production cost
PLANS + SECTION PERSPECTIVE
1. Main Entrance 2. Sitting Room 3. Kitchen + Bar 4. Dining Area 5. Bathroom 6. Stairs + Bookshelves 7. Bedroom 8. Bar Table 9. Garden 10. Wine Storage 11. Personal Office 12. Bedrooms 13. En-Suite
10.
9.
11.
8. 7.
4.
6.
3.
5. 2. 1.
Located on Mount Dandenong, the Folding House offers a complete open plan residential environment. The concept was derived from the idea of bending one continuous plane to create walls, floors and ceiling as well as to divide the area. With few windows on one side, the need of sunlight is compensated on the three other sides with full-length double-glazed glass. The ceiling features a timber-glass louver system which can be adjusted to direct sunlight through the panels. When closed, the solar panels on top will also gather and store energy for later use.
12.
12.
13.
The staircase features bookshelves as well as space for potted plants. A gradual increase in height of the curved walls provides the open plan/space with the option for an increasingly private area.
REVERSED VENTURI POD Blending into the neighbourhood, the Reverse Venturi Pod poses no distinction from itself to its surroundings. Hiding the most unique quality from the outside, a true reversed Venturi theory.
DESIGN PROCESS
From the front, the structure blends perfectly into its neighbouring buildings.
The unique quality can only be seen from above or behind
TOP VIEW
SECTION PERSPECTIVE
FRONT VIEW
BACK ELEVATION
INTERIOR RENDER The interior houses 2 open-plan floors with a spiral staircase. The pod can host a family of 4 with a car park under and an outdoor pool.
PLANS 1. Main Entrance 2. Sitting Room 3. Dining Area 4. Bathroom 5. Bedroom
4. 1.
3.
2.
5.
DANDELION TOWER A tower for the future city of Melbourne. Inspired by the dandelion, apartment pods are encouraged to fly from tower to tower to promote Nomadism in an urban setting. Breaking out of the restriction of the city landscape
SITE LOCATION The Dandelion towers will be placed throughout the CBD, Victoria and nationwide. Providing multiple stop points and destinations for the nomad travallers.
Once the tower is situated on site, the ground floor space is rented to multiple developers. Throughout the years of construction, canvas cover will be stretched and extended from the tower to the various developed structures, in order to create a large undercover open area to host markets, festivals and cafes.
GROUND FLOOR IN 10 YEARS CONSTRUCTION
The tower houses a concrete core, with an office space in the middle. Surrounding it is a spiral floor plate for residents to travel to their apartment pods. The core houses steel central columns braced closely by steel cables - this is very similar to the Westfield Tower in Sydney.
TOWER CONSTRUCTION DIAGRAM
SECTION D-D
ELEVATION
PNEUMATIC SKIN CELLS (HELIUM)
RAILINGS
RESIDENTIAL SPIRAL FLOORS OFFICE SPACE
TRAVELLING POD
SECTION PERSPECTIVE
APARTMENT PODS
SECTION POD
FACADE DETAIL
PLANS - FLEXIBLE PLANNING
Each apartment pod houses a central core with services inside. When docking, the core will then flush out all the waste into the floor, while recharging the apartment battery. The plan features free planning, walls can be pulled out to partition the room as preferred. To make the partitions even more versatile, the central core can also be rotated. A second storey is optional, this can be achieved through replacing one part of the central core with stairs.
The pneumatic skin balloon is inflated with a hollow middle to collect rainwater on the go. The rainwater will be stored in the water tank at the bottom of the pod. Once a apartment pod leaves, all the pods above will move to take over that vacant spot. In a sense, because of the nature of the sphere, in order for the apartment to be greater exposed to more light and views, one would be encouraged to keep moving to stay above the equator.
The façade is very similar to Archigram’s living pod. The window is made of pneumatic skins, when facing the summer sun, an inflated eave can be created to block off sunlight.
TYPICAL FLOOR PLAN
POD DETAIL SECTION
DETAILS
APARTMENT SECTION PERSPECTIVE
TAKING OFF
MODEL MAKING + SKETCHES
FEATURED Publicity image for Exhibition: Tower Tower (March 2014) University of Melbourne, Faculty of Architecture, Building and Planning website
PUBLICATIONS
Stacking Formular
C
v M
Form Making
Divide into 5 Equal Cubes
3m Cantilever for Form Making and Passive Sun Shading
Chamfered Corner to Enhance Form and Reduce Extra GFA Created By Cantilever
Grid System
3 Meters Grid
45
HIGH RISE
60-storey office space incorporating efficient facade design
42
Stacking Strategy
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Roof
420000
ROOF
229200
Lift Core Legend
Level 43 224600 Level 42
17700
220000
Sky Rise Floors (33 - 43)
Level 41 215400 Level 40 210800
High Rise Floors (24 - 33) 8000
450000
12000
Level 39 206200 SKYRISE LEVELS
Level 38
Medium Rise Floors (12 - 23)
201600 Level 37
Custom Aluminium Capping (Slide)
197000 Level 36
Low Rise Floors (1 - 11)
192400
Square Hollow Sections 100x100 3mm
12000
Level 35 187800
Service Lifts (All floors)
Rectanguler Hollow Sections 200x100 3mm
Level 34 183200 Level 33 178600
Sky Rise Floors (10 floors)
Mechanical Floor
2 GFA: 1932 m
Mechanical Floor
MECHANICAL FLOORS
174000
Aluminium Flashing
169400
2 NLA: 1716.27 m
Level 32 164800
Efficiency: 88.8%
Level 31
Square Hollow Sections 25x25 3mm
160200 Level 30
450000
Level 29
20000
8000
12000
151000
Diagrid Curtain Wall
Level 28 146400 Level 27
20500
HI-RISE FLOORS
141800 Level 26 137200 Level 25
420000
12000
8000 12000
James Hardie Top Hat
132600 Level 24
12000
128000
Waterproof Membrane behind Flashing
Level 23 123400
12000
12000
118800 Level 21 114200
229200
Level 22
Level 20
Atlerative orientation
109600
1
Level 19
High Rise Floors (11 floors)
A5.3.2
105000 MEDIUM RISE FLOORS
Level 18
2 GFA: 1932 m
ISOMETRIC SECTION DETAIL SCALE 1:5
100400
NLA: 1652.27 m 2
Mechanical Floor 95800
Efficiency: 85.5%
Mechanical Floor 91200 Level 17 86600
COX GOMYL G
Level 16
12000
82000
77400
17000
20 00 0
20000
8000
Level 15
BMU Guide ra
Level 14 72800 Level 13 68200
Flashing embed Concrete
Level 12
12000
MECHANICAL FLOORS
63600
8000
Level 11
12000
12000
59000 Level 10 54400 Level 9
12000
12000
49800 Level 8 45200
Waterproofing
Level 7 40600
Atlerative orientation
Level 6
Low Ladder
LOW RISE FLOORS
36000
Medium Rise Floors (11 floors)
Steel Platform
Level 5 31400
2 GFA: 1932 m
Level 4
NLA: 1588.27 m
Weep Hole
26800 Level 3
Efficiency: 82.2%
22200 Level 2 17600 Level 1
12000
13000
8000
LOBBY
GROUND FLOOR 0 UNDERGROUND PARKING 1 -3000 UNDERGROUND PARKING 2 -6000 UNDERGROUND PARKING 3 -9000
12000
8000 12000
Assignment 1: Stacking Excercise
12000
12000
12000
2
Drawing
Low Rise Floors (3+10 floors) 2 Assignment 1: Stacking GFA: 1932 m 2 NLA: 1524.27 m
Efficiency: 78.9%
Typical Floor Plates
A 1.1
Date: 19/06/2014
Date: 22/03/2014
A5.3.2
A1.1
Atlerative orientation
Section, Floorplates 1:500 Tutor: Chris Membrey
Drawn by: Lawrence Rocha Applied Construction Drawn by: Lucas Koleits ABPL 90118 Lucas Koleits, Lawrence Rocha, Thomas Lo Thomas Lo
Tutor: Chris Membrey
Class
Tute 16 Applied Construction ABPL 90118 Group D
Semester 1, 2014
Assignment 5: Design Development Part 2
A 5.3.2
Date: 19/06/2014
Tutor: Chris Membrey
Drawn by: Thomas Lo
Applied Construction ABPL 90118
A-A BMU DETAIL SCALE 1:10
Class Tute 16 Group D
Counterweight
COX GOMYL G-TYPE BMU UNIT
BMU Rails attached onto concrete slab
Custom Aluminium Capping (Galvanised) Square Hollow Sections 100x100 3mm Rectanguler Hollow Sections 200x100 3mm
Custom Aluminium Capping (Slide)
Angle 150x90 8mm
Square Hollow Sections 100x100 3mm
Flashing
Weep Hole for water drainage
Rectanguler Hollow Sections 200x100 3mm
Aluminium Flashing
Square Hollow Sections 25x25 3mm Diagrid Curtain Wall
1 A5.3.1
James Hardie Top Hat Waterproof Membrane behind Flashing
3$57,$/ 3/$1 %08 5$,/ 75$&. SCALE 1:10
Square Hollow Sections 25x25 3mm James Hardie Top Hat Waterproof Membrane 1 A5.3.2
ISOMETRIC SECTION DETAIL SCALE 1:5
Akatherm Drainage System Concrete Slab Waterproof Membrane COX GOMYL G-Type BMU Unit
Aluminium Flashing Fall
Sealant BMU Guide rail
Flashing embedded into Concrete
Fall
150x90 Angle 8mm Diagrid Curtain Wall Surface run-off, gradiated towards drainage Sun Shading System Main pipes Steel Angles 200x200 BMU Support Arm
Waterproofing Membrane Low Ladder Steel Platform for Access Weep Hole
Support Ring for BMU R2.3 Bulk Insulation RONDO Shadowline Stopping Angle 610 UB Column Encased in Concrete 450 Truss 10mm Plasterboard Ceiling Panels Rondo Access Spline 1200 C 308 Rondo Furring Channel Rondo 110 Purlins
2 A5.3.1
2 A5.3.2
A-A PARAPET DETAIL SCALE 1:10
Assignment 5: Design Development Part 2
A-A BMU DETAIL
A 5.3.1
SCALE 1:10
Section Detail and Partial Plan Assignment 5: Design Development Part 2
Date: 19/06/2014
Tutor: Chris Membrey
Class
Date: 19/06/2014
Tutor: Chris Membrey
Drawn by: Thomas Lo
Applied Construction ABPL 90118
Class Tute 16 Group D
PASSIVE SHADING SYSTEM
1 2 3 4 5 6 7 8 9 10111213141516171819202122232425262728293031
FFL 230.000 FFL 225.400 FFL 220.800 FFL 216.200 FFL 211.600 FFL 207.000 FFL 202.400
Section and Elevation (Top of tower)
FFL 197.800 FFL 193.200 FFL 188.600 FFL 184.000 FFL 179.400 FFL 174.800 FFL 170.200 FFL 165.600 FFL 161.000 FFL 156.400 FFL 151.800 FFL 147.200 FFL 142.600
Our system is composed by a unitised shading skin. This skin is attached to the main diagrid structure of the building. Thanks to its diamond like pattern, the shading system performs well for north, east and west sides, blocking the unnecessary summer heat and allowing winter heat to penetrate the building. These shades are made out powder coated steel in a variety of colours.
Level 44 Level 43 Level 42 Level 41 Level 40 Level 39 Level 38 Level 37 Level 36 Level 35 Level 34 Level 33 MECHANICAL FLOOR
ACTIVE SYSTEM PV’S
MECHANICAL FLOOR
Our active system will be photovoltaic (PV) panels that are placed on both sides of the shading. Thanks to its angle, the PV panels can obtain an optimum amount of energy from sunlight.
Level 32 Level 31 Level 30 Level 29 Level 28 Level 27
FFL 138.000 FFL 133.400 FFL 128.800 FFL 124.200 FFL 119.600
Section Collage
Elevation, West side
FFL 115.000 FFL 110.400 FFL 105.800 FFL 101.200
Level 26 Level 25 Level 24 Level 23 Level 22 Level 21 Level 20 Level 19
SHADING SECTION
Section
S
Scale 1:100
Level 18
FFL 96.600 FFL 92.000 FFL 87.400
MECHANICAL FLOOR MECHANICAL FLOOR 2000mm
Level 17 FFL 82.800
Hovering Perspective
W
The summer sunlight is blocked by the shades, while the winter sunlight penetrates the building envelope efficiently.
30
Level 16 FFL 78.200 Level 15 FFL 73.600 Level 14 FFL 69.000 Level 13 FFL 64.400 Level 12
Diagrid over cantilever
FFL 59.800 Level 11 FFL 55.200 FFL 50.600 FFL 46.000 FFL 41.400 FFL 36.800 FFL 32.200 FFL 27.600 FFL 23.000 FFL 18.400 FFL 13.800
Model Interior
FFL 9.200
Diagrid over flat side
FFL 4.600
Split Model
FFL 0.000 FFL -3.000 FFL -6.000 FFL -9.000 FFL -12.000
1
Level 10 Level 9 Level 8 Level 7 Edge Beam Steel Plate Steel anchor
Level 6 Level 5 Level 4
PV
Level 3 Power Coated Steel Encasement
Level 2 Level 1 LOBBY 2
GROUND FLOOR
Steel anchor Edge Beam Cable Managment PV
UNDERGROUND PARKING 1
Steel Shell
LOBBY 1
UNDERGROUND PARKING 2 UNDERGROUND PARKING 3 MECHANICAL FLOOR
North Elevation
Plan Section Detail
Section Detail 1:500
1 : 500
Construction Process
Assignment 2: Structure Assignment
Date: 05/04/2014
Assignment 2: Structure Tutor: Chris Membrey Class
Date: 05/04/2014 Drawn by:
Tutor: Chris Membrey
Class
MONAD HOUSE
A construction phenomenon, combining various materials into one building, including steel + timber frames, plasterboards + masonry + insulated precast concrete
DOCUMENTATION
PHYSICAL MODEL
NEO-BIT X It has been 10 years since Neobit has revolutionalised how we interact with our physical and digital worlds. In 2114 Neobit introduced a system which allowed people the freedom to explore the unlimited possibilities available in the digital world, and transfer their digital dreams into reality. Celebrating our 10th anniversary, Neobit has introduced our new operating system - Neobit X. This redesigned selfassembling, reconfiguring network, programs the physical matter just like the digital. It is the true integration of technology into our physical world allowing instantaneous design and fabrication. Now, with Neobit X, Neobit is no longer a product, but a part of everyday life. Presented as a part of Future Now, UDMK
More information available online at issuu.com/thomaslo/docs/manual_double_sided_single_no_crop_/0 issuu.com/thomaslo/docs/thomas_b5_l_1_perfect_satin_laminat/0
RESEARCH M-BLOCKS Developed by MIT Media Lab, the M-Blocks are made with aluminium frames and can connect to each other with the use of magnets. The navigation is pre-programmed and controlled by the inertial actuator inside, with a flywheel and a deceleration belt that determines how much torque each movement is needed. The M-blocks can handle even complex movements such as jumps.
SMART PEBBLES Developed by MIT Media Lab, the Smart Pebbles allow autonomus assembly with the use of 2 different types of Electro Permemant Magnets. Smart Pebbles can imitate and recreate an exact replica of a nearby object. Smart Pebbles are currently 100m x 100mm in size.
FILM SCENES
Neobit is a self-assembling, reconfiguring network that can program the physical matter just like the digital. They can be installed into exsiting buildings, public stripes or be carried as a portable material. Creating objects from scratch with simple hand gestrures or build structures using blueprint purchased online.
Film Footage available at: https://vimeo.com/113500643
They come with a compehensive software that communicates most of the navigation with a visual device such as google glass. In real life, they can be used as temporary fixings as well as structural elements, allowing multiple programs to happen very quickly one after the other in one single coordination.
PERSONAL ART WORKS A selection of artworks in the medium of Oil on canvas, Acrylic on canvas, watercolour and scultupre
PHOTOGRAPHY AND DESIGN Personal photography projects and various online design competitions (2010-present)
SAA ARCHITECTS SINGAPORE (JAN 2014) Brief: To design lift interiors for Nanyang Technological University Residential Housing with use of bold colours for a modern identity.
SAA ARCHITECTS SINGAPORE (JAN 2014) Brief: To design a welcoming public entrance, incorporating efficient use of timber, astro turf and concrete to form a multi-functional communial space.
anon. CREATIVE DIRECTION & SET DESIGN Brief: Through concept design and development, fabricate set design structure for live concert.
THANK YOU.