Connection Sun
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Structure
Cultiva te
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Wind Neutralise
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Surfacing
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Architecture selected works 2020 - 2023 Mathew Tou U Tong
VIsual
Na tiv e
Portfolio
ry to
Selected works
Studio - Epsilon
2020 . Year 3 (Bachelor) - semester 2
Studio - Extreme Architecture
2021/22 . MSc 1 - semester 1
Studio - Borders & Territories
2022/23 . MSc 3&4 - Graduation studio
Studio - Bucky Lab
2022 . MSc 2 - semester 2
Applied Architectural Technology
2021 . Year 1 (Master) - semester 1
Bridge design
2022 . MSc 2 - Spring elective
ABOUT ME Education +853 6666 2645 It is all about the enthusiasm, optimism, positive contribution & collaborative spirit of architecture and the built environment; stressing to create emphatically for all living things and our planet.
mathewtong125@gmail.com Mathew, Tou U Tong @mat_hew_t
Architectural Exhibitions
Languages
2023
Nieuwe Instituut - Weaving World
Cantonese
Native
2020
MSDx Winter (virtual)
Mandarin
Fluent
2019
MSDx Winter
English
Fluent
Experiences
Technical skills
JWCC Macao Curator Team (Macao) for La Biennale di Venezia 2023 / Oct 2022 - Jan 2023
Photoshop
Powerhouse Company, the Netherlands Architecture Intern / Aug - Dec 2022 Atelier Niris, the Netherlands Architecture Intern / May - Aug 2022 JWCC Macao Architecture intern / Apr - Jul 2020 Kengo Kuma & Associates - Shanghai Office Architecture intern / Nov 2019 - Feb 2020
Indesign Illustrator Rhino3D + Vray Grasshopper
MSc Architecture, Urbanism and Building Sciences . Track : Architecture Delft University of Technology / 2021 - 2023 Bachelor of Design University of Melbourne, Australia / 2018 - 2020 Double major in Architecture & Landscape architecture. Awarded a special scholarship for higher education in 2018 from Macau Foundation Standard plus foundation program University of New South Wales, Australia / 2017 Awarded with Certificate of Outstanding service
Music Qualifications Royal Academy of Music Grade 8 Cello & Piano Grade 7 Violin Grade 3 Clarinet
Autocad Sketchup _ Vray
Referees
Revit + Vray
Mark Casey-Losewitz Project Architect m.losewitz@gmail.com +61 0413 4013 30
3Dmax + Vray Unreal
Dhanika A. Kumaheri Senior Tutor dkumaheri@unimelb.edu.au +61 0431 2631 33
01. Studio - Epsilon A Melbourne Co-Housing Project 2020 . Year 3 (Bachelor) - semester 2
Studio - Epsilon Studio Epsilon acts as a departure point of the Architecture major in the Bachelor of Design, of which is seen as a hub to consolidate knowledge from previous design studios. This studio delves into collective housing, honing in on multiunit dwelling design in Melbourne’s middle-ring suburbs. These areas are evolving due to shifting demographics, economic influences, and diverse living styles.
X + V2 It is a concept of a vertical village, an architecture that makes a tribute to the history/original idea of co-housing while addressing a modern-day issue - “isolated self.” It is about cultivating the concept of a “non-nuclear family” and, by all means, aim to encourage & celebrate different physical & social interactions within the community... While: X - meaning Generation X, that is the era when the original idea of co-housing was first introduced in Denmark. + - representing a modern days issue, the “isolated self.” V square - Using a distinctive Architectural topology - village to address the issues of the social issue - the “isolated self.” The goal is to innovate housing solutions that align with modern societal needs. This involves crafting housing models that offer communal amenities, integrating multi-use spaces, and encouraging proximity among residents. The design emphasis is on fostering innovative, lasting solutions for harmonious communal living. Concept diagram
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X+V2 Co-housing Isometric Zoning overview 2 bedroom 3 bedroom 4 bedroom Studio
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1 bedroom Communal kitchen Communal & Bee keeping Core & communal balcony Multi-functional room Internal courtyard
13. 14. 15. 16. 17.
Communal courtyard Basic horizontal connection Fire stairs - Core Double facade strategy Environmental strategy
A-A B-B
Ground floor plan 1 : 100 @ A1 1
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02. Studio - Extreme architecture A Communal Project in Sint Maarten 2022 . MSc 1 - Autumn studio
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Site - Isometric 1. 2. 3. Concept diagram
EXTREME Architecture - Symunity The studio EXTREME deals with integral design in extreme environments. The goal of this approach is to make the students conscious of their technical and architectural design choices. As for this year, the students are asked to design a sustainable farm on Sint Maarten for Spaceless Gardens, where the island is prone to natural hazard & extreme weather condition such as seasonal hurricanes (as strong as Class 5) and strong wind. Symmetry & Unity - it’s a concept of embracing both ends of the extremeness and creating something in between, as a “bridge” in the middle to achieve balance; a communal project that seeks balance, resilience, and sustainability development for the people of Sint Maarten.
Part A - The Living Architecture Part B - The Learning Architecture The Laboring Architecture - Bamboo Pavilion
The Learning Architecture - Exploded Iso
The Learning Architecture - East (Front) Elevation
1. 2. 3. 4. 5.
400x400 Timber Structural Engineering Column 900x900 Concrete reinforce. Strip footing foundation 900x600 Concrete reinforce. Pad footing 300x250 (Vertical), 400x250 (horizontal & Angled) Timber Structural Beam & Bearer 900 Height Pratt Flat truss Centre @1500 Max. Span 5000
38x6mm DRESSELHAUS Countersunk nail head
1mm folded aluminium sheet 5x30mm Ring Shank nails
1mm thick. 200mmaluminium C-Section
2mm Cold-rolled aluminium Peaked Coping Cap
40x60mm Battens
5mm Cold-rolled aluminum fascia board
38x6mm DRESSELHAUS Countersunk nail head
1.5mm Polytex Pro vapor permeable foil
13mm Laminated timber block panel
38x150mm Timber top plate
Perforated steel L-shaped panels
50x60mm Battens/ventilation layer
Roof Bedding and Pointing - Black
On site soil mix with intensive lightweight green roof soil
Gravel
Siplast - Canopia Drain
50x7mm DRESSELHAUS Countersunk nail head
HECO MULTI-MONTI screws Galvanized 10x170mm Hexagon
9mm Laminated timber block panel
140mm Rigid foam insulation
16mm Wood Sheathing, Chipboard
Vapor permeable spunbonded foil 140
25mmx2 Crosslaminated timber board
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140mm Rigid foam insulation
Communal Kitchen Perspective
Glalvanised T-shaped truss plate 30x80mm Timber top plate
H2.5 Galvanized SIngle sided hurricane anchor
9mm Gray Backer Rod Polyethylene 80 30
20x140mm Timber horizontal support packer Insect Mesh 2mm Cold-rolled aluminum flashing
900mm Height Pratt flat truss Centre. @1500 Max. Span 5000
Glalvanised L-shaped truss plate 19 48
183 250
20mm Laminated bamboo veneer 50x7mm DRESSELHAUS Countersunk nail head
40x150mm Laminated Lumber Gypsum board ceiling paint with white finish
Glalvanised L-shaped truss plate Insect Mesh 13mm Gray Backer Rod Polyethylene Triangular fillet timber section 2mm Cold-rolled aluminum flashing
Wood single fixed window jamb
The Learning Architecture - Roof Parapet Typical Detail
20mm Laminated bamboo veneer finish 16mm Protection hardboard
22x100mm Timber Lintel
Educational Space Perspective
03. Studio - Borders & Territories A Bathhouse and a Library in Sultangazi, Istanbul 2021 - 2022 . MSc 3, 4 - Graduation Studio
A bathhouse & a library in Sultangazi, Istanbul
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The bath of Sultangazi stands as a symbol of openness, simplicity, equality, and manipulation. It defies the divisions created by social class, ethnicity, and diverse backgrounds, aiming to foster communication, honesty, and transparency. The architecture of the bath reflects these values, expressing equality, directness, and a shared vision for the people of Sultangazi and Istanbul as a whole. The bath of Sultangazi remains a testament to the dedication and effort invested throughout the entire design journey. It embodies the principles of inclusivity and unity, providing a space where individuals from all walks of life can come together, transcending social barriers and fostering a sense of belonging. While there is always room for improvement, the project stands as a testament to the power of architecture in creating spaces that promote equality, understanding, and a shared sense of purpose.
Map 01. Position of Architecutre
This achievement is the result of nearly nine months of intensive research, encompassing seminars, thesis work, collective mapping, studio sessions, and mentoring by Borders & Territories. While I find the outcome of my project personally promising, I believe there is untapped potential that could have been further developed.
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Library main hall roof structure 20235
Library main hall roof 16235
Bathhouse main hall roof 11910
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280 Bathhouse entrance level 8000
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Balikli Aqueduct / Bathhouse main hall 2920
Landscape Ground Level 0
14000
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Legend 1. 2. 3. 4. 5. 6. 7.
Steam Room Thermal pool 36 - 40 degree Thermal pool 32 - 36 degree Thermal pool 30+ Service area Mechanical room (Same level as bathhouse) Passage (Above bathhouse level)
8. 8.1 8.2 8.3 8.4 9. 9.2
Male dressing area Changing area Locker Bathroom Shower Female dressing area Locker
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Bathroom Shower Shoes storage Accessible bathroom Bathhouse store Reception Lobby
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Library cafe Library reception Shelfs Reading area Reading area 2 Meeting room Female bathroom Male bathroom
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The Balikli Bathhouse - Long Section 1:200
Contribution to the project : Concept development & drawings Drawing list: • Structural analysis • Conceptual sketch • Diagram • Section • Isometric Group members : Kelly, YuTong Jin David, YuPeng Gao
04. Studio - Bucky Lab A bioreceptive facade 2022 . MSc 2 - Spring studio
Part B - Bioreceptive facade Group work
Concept sketch
A bioreceptive facade - BioBrick With the expansion of the urban heat island, architects seek to use newer and more sustainable materials to replace traditional ones. Bricks have been a part of the Dutch architectural culture and heritage. Due to its permanence and solid structure, it is not very ecological and hence the industry MUST be tailored for change. Newer, demountable and Green Brick solutions must be attained to revitalize and adapt the industry to modern times. A bioreceptive brick, which is mainly made out of recycled woodchips. Our product will cater to newly constructed mass housing. Hence, taking inspiration from a traditional dutch brick house, we created a brick which fits the in demountable “click brick” system. Render of final product
Soft Criteria Bioreceptive • The inside of the brick should be water repellent • The top layer should be porous Low tech • Requires low scaled labor • Follows the click brick construction system
- Moss - Gutex - Compodeen
Low maintenance • Quality of the joints • Quality of material Circularity • Long lifespan • Upcycled materials • End of life cycle Section
Displacement - Stress in YZ Direction
Stress in Z Direction
Uniform Displacement
Hard Criteria Porosity • High density > 1000kg/m3 • Low density < 150kg/m3 + PH 7 for bioreceptivity Dimensions • Only handtools needed: handsaw + hammer • Length 210 x 90 x 62.5 mm + 10mm grooves Low maintenance • Stainless steel joints • Bioreceptive layer minimum 2 year lifespan Circularity • Durability class 1 (aiming 50 years) • Low carbon footprint + waste • Dry detailing
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Classification Scientific name: Brachythecium albicans Authority: (Hedw.) Schimp. Common name: Whitish Feather-moss Division: Moss Growth form: Pluerocarp
Exploded Iso 1. 2. 3. 4.
Moss (Bryophyta) Gutex Bio Based Resin Compodeen Composite
Classification Scientific name: Eurhynchium striatum Authority: (Hedw.) Schimp. Common name: Common Striated Feather-moss Division: Moss Growth form: Pluerocarp Click Brick System
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Contribution to the project : Concept development, final design, detail drawings, rendering Drawing list: • Structural analysis • Conceptual sketch • Diagram • Section • Isometric Group members : Panisa Mitsumpune
05. Applied architecture technology A Melbourne city high-rise project 2021 . Year 1 (Master) - semester 1
Conept sketch
The 244 - 276 SPENCER ST In this elective applied architecture technology, we are given a chance to explore into architectural design and development, focusing on the more complex building types that are not typically studied in detail at the undergraduate level - the high-rise. We are encouraged to consider the environmental impact of our designs, focusing not only on creating sustainable and energy-efficient buildings that use the latest advancements in green technology, but also the aesthetic and impact on the skyline of Melbourne. As for our group, we have chosen the center core, composite flooring, and tube-in-tube systems for our high-rise buildings. This decision was made based on the need for specialized structural systems to support the building’s weight and resist lateral loads caused by wind and earth movements. The center core system includes a central core with elevators, stairwells, and services that provides flexibility in exterior design, open floor plans, reduced structural weight, and enhanced fire safety. The composite flooring system encases steel beams in concrete, providing greater strength and stiffness, reduced floor-to-floor height, improved fire resistance, and faster construction. The tube-in-tube design features an external structural tube encasing an inner tube that contains the building’s core, providing stiffness and stability, fire safety, and energy efficiency. Perspective - Crown
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Crown 230600 Level Level 44 44 -- Skybar Skybar 221600 221600 Level 44 - Skybar 221600
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Typical hotel floor plate section
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Level 37 37 Level 195000 195000
Level 36 36 -- Mechanical Mechanical floor floor Level 187700 187700 - Skybar LevelLevel 36 -44 Mechanical floor 221600 187700
Level Level 31 31 168700 168700 Level 31 Level 30 30 Hotel Level -- Hotel Level 37 168700 164900 195000 164900 Level 30 - Hotel 164900
Level 36 - Mechanical floor Level club Level 29 29 -- Hotel Hotel club house house 187700
157600 157600 Level 29 - Hotel club house 157600 Level 28 28 -- Skylobby Skylobby Level 150300 150300 Level 28 - Skylobby 150300 Level 31 168700
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Level 30 - Hotel 164900
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CrownLevel 37 230600 195000
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Level 29 - Hotel club house 157600
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Level 22 22 -- Mechanical Mechanical floor floor Level 120500 120500 Level 22 - Mechanical floor 120500
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Level 28 - Skylobby Level 23 23 150300Level
Level 22 - Mechanical floor 120500
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Typical floor plate section
Level 15 15 -- Low Low rise rise core core departure departure Level 90400 90400 Level 15 - Low rise core departure 90400
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Composite steel decking, 120mm thick Level 10 10 Level 68900 68900 Level 10 68900
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Level 9 - Mechanical floor Level 9 9 -- Mechanical Mechanical floor floor Level 60600
60600 60600 Level 9 - Mechanical floor 60600
530 UB 82
Ceiling grid panel
Overall Section 1:350 Centre core / composite / tube in tube
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Typical floor plate detail
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Reinforced column 600x400mm
Level 2 30500 Level 1 - Office 26200
Level 2 2 Level 30500 30500 Level 2 Level 1 1 -- Office Office Level 30500 26200 26200 Level 1 - Office 26200
Ground floor - Podium 0 Basement -5000
Ground Ground floor floor -- Podium Podium 0 0 Ground floor - Podium
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01. Top to bottom (structure) perspective 02. Centre core / Composite / Tube in tube system 03. High view from street perspective
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Spandrel glass panel
Section A-A
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Vision Glass panel
Level 31 - Hotel 168700
Fixed louver
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Photovoltaic curtain wall
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Level 29 - Hotel Skylobby - Club house 157600
Suspended ceiling
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Facade arrangment elevation - Hotel skylobby to hotel A4.1-1Facade arrangment elevation - Hotel skylobby to hotel 1:50@A1
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Section A-A 1:50@A1
Section A4.1-2A-A 1:50@A1
Contribution to the project : Concept development, final design, structural analysis, strucutral calculation, detail drawings, rendering Drawing list: • Structural analysis • Concept diagram • Diagram • Plan • Section • Isometric • Detail drawings • Renders Group members : Deborah Dekker Marije de Ruijter
06. Bridge design Masshaven bridge, Rotterdam 2022 . MSc 2 - Spring elective
Autodesk Robot Structural Analysis Professional 2022 Author: Address:
File: Project: Structure
View - Deformation,Exact deformation(s), Cases: 1 (DL1)
The Maashaven Bridge - Sketch
Concept diagram Autodesk Robot Structural Analysis Professional 2022 Author: Address:
Bridge Design An elective subject that focuses on the design of a bridge for pedestrians and bicycles. The design process stretches from the integration of the design in the urban or landscape context to the architectural engineering of the design.
Structural Analysis Deformation
The Maashaven bridge Maashaven, a bay area located south of Rotterdam; in between the two suburbs, Katenrecht and Charlois. Currently, the connection between the two suburbs and the people from the Northern part of Rotterdam is very long.
Structural Analysis Shear force
Furthermore, Maashaven will face a massive urban transformation, part of Rotterdam city’s ambitions to create a brand-new cultural precinct in the south. As a result, the Maashaven is in need of a bridge to create a better connection between the areas. As Jean Novel said, “Architecture exists, like cinema, in the dimension of time and movement.” Our bridge seeks the connection of time and people, a vessel of the past, present, and future.
File: Project: Structure
View - TZ, Cases: 1 (DL1)
Date : 29/03/22
Page : 1
Autodesk Robot Structural Analysis Professional 2022 Author: Address:
File: Project: Structure
View - MY, Cases: 1 (DL1)
Date : 29/03/22
Page : 1
Date : 29/03/22
Page : 1
Structural Analysis Bending moment
en Kat ch dre
Future cultural campus
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Future cultural campus
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Long East Elevation 1:1500@A3
Maashaven
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The Maashaven Bridge - Iso
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Bridge on Land
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Cable stayed bridge Bascule bridge