Di_Portfoilo

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P O R T F O L I O

DI WU 1


Education Master 2020. 07 - 2022. 07

The University of Melbourne

Master of Architecture

Bachelor 2016. 07 - 2019. 07

The University of Melbourne

Bachelor of Environments, Architecture

Foundation 2015. 10 - 2016. 06

Trinity College (The University of Melbourne)

October Fast Track Foundation

Grades and Exhibition

Wu Di

Bachelor 2016 - 2019

Male | 25 years old | Nantong, Jiangsu December, 1996

Weighted Average Mark: 82.0 / 100 (Top 3% ) During the undergraduate period, all personal works of professional design courses were honoured as outstanding works and exhibited in the MSDX semester exhibition. Master 2020 - 2021

19906298996 wud11@student.unimelb.edu.au

Weighted Average Mark: 80.4 / 100 (Top 5%-10%) Professional design courses' personal works in the completed semester were honoured as outstanding works and exhibited in the MSDX semester exhibition.

Awards

Job Intention Status: Graduate in 2022

Dean's Honours List is awarded to the students ranked in the top 3% of their course every year.

Expected Workplace: Shanghai

2018

2017

Dean's Honours List - Faculty of Architecture, Building and Planning Dean's Honours List - Bachelor of Environments - Second Year 2019

Application: Internship

Dean's Honours List - Bachelor of Environments - Level 3

Internship 2020. 03 - 2020. 07

Languages

Archi-Union Architects, Shanghai, China 2018. 11 - 2019. 01

English

Proficient

Mandarin

Advanced

Sketching

Advanced

Rhinoceros

Proficient

Revit

Proficient

Grasshopper

Advanced

Dynamo

Proficient

AutoCAD

Good

Enscape

Advanced

Lumion

Proficient

Photoshop Illustrator

Good Proficient Good

Indesign

Proficient

Powerpoint

Proficient

Physical Model-making

Nantong Urban Planning & Design Institute Co. Ltd., Nantong, China

Intern

Project Experience

Skills

V-ray

Architect Assistant

Advanced

2020. 05 - 2020. 07

Xinqiang Village Public Building Renovation Project, Fengxian District, Shanghai (Completed) Participated in site survey, schematic design, design development and construction documentation stages: according to the relevant regulations and under the architects’ supervision, I completed the designing, modelling and drawings of the renovation scheme of two buildings and obtained approval. Cooperated with the structural and system engineers to complete part of the construction drawings. The building was completed. 2020. 04 - 2020. 05

Exhibition Hall Design Project for Tengchong Stone Wall Hot Spring Resort, Yunnan Participated in the schematic design: following the design concept and requirements of a foreign designer, I completed the design of spatial configurations, modelling and schematic design drawings of one of the buildings under the guidance of the architects. 2020. 03 - 2020. 04

The Restoration and Renovation Project for Ruihuafang, Shanghai Participated in the schematic design: completed the modelling work for the restoration of the heritage complex based on the heritage reports, and used parametric tools to complete the design for parts of the new building connections. 2018. 11 - 2019. 01

Construction Documentations for Effiel Printing Machinery Technology Co., Ltd., Nantong Learnt construction drawing and participated in Revit and ArchiCAD BIM software learning and training. BIM software was used for project modelling and drawing.


C O N T E N T

ACADEMIC 01

DID TOWER A Mixed-use Tower in Melbourne

02

CARLTON CELLS A Community Health Centre

03

05

23

RESONATE An Outdoor Acoustic Shell in Quarry

24 - 31

PERMEATION A Community Estate Prototype for Melbourne

06

12 - 22

CONSTRUCTION SUBJECT Construction Design

04

4 - 11

32 - 39

GENETICS The Reclamation of Space through Aggregation

40 - 47

PRACTICE 07

ARCHITECT ASSISTANT

48

ARTWORKS 08

PHYSICAL AND DIGITAL ARTWORKS

49 -51


YEAR: 2021 | LOCATION: Melbourne, Australia | SUBJECT: Applied Architectural Technology | TYPE: Academic Group

DID TOWER A HIGH-RISE MIXED USE TOWER IN MELBOURNE Applied Architetcural Technology specialises in the design of high-rise mixed-use buildings. The design of an elegant, functional, comfortable and energy efficient high-rise building for Melbourne’s city centre is based on five aspects: practical building codes, vertical stacking strategies, structural design, building envelope design and detailing.

K J I H

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4900

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A

3

4050

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C

4050

5

4050

1

2

4050

Area

4900

4050

4200

0

4050

3800

3

1680m2

NLA

1418m2

Core Area

262m2

Office Area

1418*28=39704m2

Hotel Area

1418*14=19852m2

Poudium Area

8860m2

Total GFA

79420m2

Efficiency

84.4%

4050

0 4200

4050

6

4050 4050

4050

7

8

4050 4050

4050

5

9

4050

10

4050 3800

11

Height

4

4050

4700

4

4050

4050

GFA

Podium

20m

Office

4*28=112m

Hotel

3.5*14=49m

Mechanical Floor

8*3=24m

Crown

40m

Total Height

245m

F E

D C

B A

0

4000

H G


Final render from North East perspective

Sun Diagram

View Diagram

Wind Diagram

Medium Office lift Core

Form Step 1

Circulation Diagram

Ventilation Diagram

Facade Diagram

High Office Lift Core

Form Step 2

Goods/Hotel Lift Core

Form Step 3

PROJECT

TITLE

DID TOWER

SUBJECT

A 01 FINAL

Applied Architectural Technology

DRAWN BY Di Wu Dongyao Zhang Mingxuan Ze

TUTORIAL NUMBER 04

GROUP NUMBER Group A

SCALE(@A1) As Indicated

STUDENT ID

TUTOR Mark Lam

CHECKED BY

SHEET NUMBER DATE 18/06/2021 0

5


VERTICAL STRATEGY

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Level 33 - 45 Sky Rise - Hotel

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4050 4050 4050 E

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4050

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3800

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4050 4050 42000 4050 4900 4050 4050 K

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4050

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3800

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3800

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3800

3800

4050

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4050

4050

4050

4050

4050

3800

42000

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B

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3800

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40000 3800

4050

4050

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4050

4050

4050

4050

3800

4050

A

C

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D

3800

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6

4050 4050

42000

4900 4050 4050

4050 4050

4050

4050

4050 4050

42000

42000 4050

4050

4050

4050

4050

4050 4700 4050

E

D

4050

4050

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4m4050

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40000 4050

4050

4050

4050

3800 1

2

2

4

3

3

5

4

11 6

5

6

7

8

Level 04 - 17 Medium Rise - Office

8

9

10

11

6

9

10

1680m2

GFA NLA

3800

Core Area A

4050

4050

4050

11

2 1418m 4050 4050

4050

4050

4050

3800

40000

B

C

D

262m2 E

F

Efficiency

84.4%

Height

4m

G

H

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J

4050

4050

4050

4050

8

4050

4050 4700

4700

10

11

11

3800

4050

4050

4050

4050

4050

4050

4050

4050

3800

40000

SUBJECT

Applied Architectural Technology

B

0m

C

D

12.5m

E

25m

F

G

H

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K

50m

6

7

9

1:500@A1

A 01 FINAL

84.4% C

B

5

42000

4050 4050

PODIUM 0M-20M

DID TOWER

A

7

A

TITLE

262m2

3

4

-12.000

PROJECT

Core Area

Height 3800

5

-9.000

1:500@A1

1418m2

4

4

10

50m

K

J

2

3

8

25m

NLA

11 6 1

2 G

F

I

1

40000

2

1680m2

Efficiency

1 11

3800

H

10

10

4050

G

F

GFA

7 G

F

E

D

9 4

7

9

12.5m

4050

8

5

7

0m

4050

2

42000

4050

C

B

1 6 11

3

40504050

4050 4050

A

A

7

40000 A

Level 18 - 31 High Rise - Office

4900

4050

4050

4050

4050

4050

3800

4050

3800

4050

4050

4050

4050

4050

4050

4050

4050

42000

4050

4050

4050

4050

5

-6.000

4050

4050

3800

105

3

±0.000

4050

4050

J

9

20.000

4050

4900

I

H

4700 4050

4700 4050 4050 4050

G

F

40000

8

24.000

4050

40000

9

MECHANICAL FLOOR

11

3800

4050 4050 E

D

10

6

4700 11

4050 4050

C

B

4050

K

4900

4050 4050 4050 4050 4700 4050 42000 4900 4050 4050 4050 40504050 4050 4050 4050 4700 K

J

4050

4050 28.000

G

I

H

40000

40.000

32.000

10

72 G

F

8

44.000

36.000

9

1 11 10

1 11

40000 A

4050

4050 4050 42000 4050 4050 4700 4050 42000 4900 4050 40504050 4050 4050 A

4700

48.000

6

6

8

9

4050

4050 42000 4050 4050 4050

3800

5

8

5

5

52.000

4050 4050

4050

9

10

9

11

4050

4050

3800

4

3.5m

7

4

10

64.000

4050

11

4050

E

D

7

10

4050

4050

4050

89.9%

Height

7

4

68.000

4050

4050 4050 42000 4050 4050 4050 10

4050

6

3

4050

4900 4050

9

10

4050

72.000

56.000

9

4050

9

4050

C

B

Efficiency

8

8

60.000

8

3800

4050

4050

1

2

3

3

7

8

11

4050

4050

3800

4700

3800

4050

4050

K

J

4050

171m2

2

40000

6

4700

4050

4050

4050

2

11 6

5

4700

4050

A

4900

4050

9

4050

4050

1680m2

4050

4050

4900 4050 4050

4

7

10

4050

3800

4050

4050 4050 4050 4050 4050 4050 4700 4050 42000 4050 4050

6

4700

4050

76.000

5

8

11 6 1

84.000

2

3

4

4050

MEDIUM RISE OFFICE 20M-76M 14F

K

J

10

8

2

5

4050

3800

5

7

3

11 6

K

J

4050 4050

3800 1

4

I

H

4050 4050

4050

5

4700 4050

4050

G

F

40000 3800

5

4

42000

4050

E

D

I

H

4050

Core Area

111 6

4050

4050

C

B

4050

4050

K

J

4050

4050

I

H

4050

1509m2

7 G

F

4050 4700

4050

1 3

7 I

4

88.000

2

9

H

A

4050 4050

4050

E

D

42000

3800

3800

4050

4050 4900

40000

10

3800

92.000

K

J

4050

4050

I

H

4050

4050 4900

4050

G

F

4050

4050 4050

96.000

E

4050

40504050

3

9

100.000

D

4050

4050 4050

4050

104.000

8

4050

42000

1 6 11

8

C

4050

3

94

108.000

3

B

C

B

7

A

4050

94

2

6 1

4050

105

112.000 2

MECHANICAL FLOOR

4050

A

4900 4050

116.000

1

7

50

3800

G

F

4050

NLA

83

4050 4050

124.000

5

3800

3800

42000

K

4050 K

J

4050

4050

40000

128.000

120.000

42000

4050

4050

83

3800

J

4050

4050

4900 4050

I

H

4050

4050 4050

G

F

4050

4050 4050

E

D

4050

E

D

4050

2 4

10

4050 4700

C

B

4050

4050

1

4050 4900

A

4050

3800

GFA

2

3

4050 4050

4050

K

J

C

B

40000

4050

4050

I

H

4050 4050

4050

A

6 1

4050

4050 4700

4700

4050

G

F

72

132.000

4050

I

H

1 11

Level 32 Hotel Lobby

5

3800

42000

4050

4050

4700

4050

6

136.000

4050

3800

4050 4050

4

10

4050

K

J

4050

40000

5

11

4050

4050 4900

42000 4050 4050

9

4

4050

4050 4050

4050 4050 4050 4050

4050 42000 4050 4050

151.500

10

11

I

H

4050

40000

8

9

4050

E

D

7 2

155.000

8

4050

C

B

4050 4700

4050 4050

162.000

140.000

4050

9 A

5

165.500

148.000

8

4050

4

10

6

7

G

F

4050

8

3

7

4050

3

9

158.500

E

D

40000 4050

2

8

111 6 5

C

B

3800

4050 4050

4900

4900 4050 4050 4050

42000

4

A

7

176.000

169.000

5

6

7

172.500

10

3800

2 K

4050 4050

3800

42000

4050 4050 4050 4050 4050 4050 4700 4050

5

K

4050

3800

J

4050

4050

4900

4050

4050

I

4050

4050

4

LOW RISE OFFICE 84M-140M 14F

50

4050

H

4700

4050

3

11 6

K

J

4050

G

4

186.500

4050

40000 I

4050

F

4900

4050

3

3800

H

4050

E

4050

4050

2

4

11

J

4050

D

4050 4050

2

9

10

3800

I

4050

C

4050 4050

4050 4900

4050

MECHANICAL FLOOR 9

H

3800

4

6 1

179.500

9

4050

4050

B

5

190.000

K

J

183.000

10

4050

4050

3

1

8

4050

4050

4050 4900

I

H

1

4050

K

J

G

F

2

3

7 I

H

E

D

40000

HOTEL 148M-197M 14F

3800

C

B

3800

4050

4050

3800

A

4050 4900

A

6 1

8

4050

4050

4900

4900

4900 4050

193.500

7

50

K

J

10

4050

40000

4050 4050

197.000

5

3800

4050

3

4050

4050

42000

4050

4050

2

205.000

4

4050

K

J

4050

1 11

MECHANICAL FLOOR

I

I

H

40000 4050

1 11

3

H

G

F

4050

C

B

3800

4700

4050

A

10

2

3.5m

8

3800 1

89.9%

Height

9

K

J

Efficiency

6

4050

4050 8

9

4050

171m2

7

4050

7

I

Core Area

4050 42000

42000 4050

6

4050

1509m2

4

5

4050

5

H

1680m2

NLA

4050

4050 4050

4

50

GFA

3

2

3

4050

J

42000

I

4050

H

4050

G

4050

F

4050

E

4700

D

4900

C

4050

B

4900

A

1

4050

1

Sky Rise Hotel

Mechanical Floor

Hotel Lobby

Goods Lift

High Rise Office

Hotel Lift

Medium Rise Office

High Office Lift

Low Rise Podium

Medium Office Lift

DRAWN BY Di Wu Dongyao Zhang Mingxuan Ze

TUTORIAL NUMBER 04

GROUP NUMBER Group A

SCALE(@A1) As Indicated

STUDENT ID

TUTOR Mark Lam

CHECKED BY

SHEET NUMBER DATE 18/06/2021 0

K


STRUCTURE CONCEPT F

H

G

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I

K

B

A

D

C

F

E

EB1 EB1

EB1

EB1

EB1

EB1

EB1

EB1

EB1

11

4050

4050

4050

4050

4050

4050

4050

4050

10

11

11

D

C

10m

E

F

EB2

EB2

B1

B1

EB2

EB2

B1

B1

EB2

EB2

B2

B2

EB2 B1

B1

B1

4050

B2

B1

EB2

EB2

3800

3800

EB2

EB2

EB1

EB2

4050

4050

4050

4050

EB1

EB2

EB2

EB2

4050

4050

4050

4050

4900

4900

4050

4050

4050

4050 4050

4

4

A 5

5

6

6

7

7

8

8

9

9

10

10

11

11

H

I

J

K

B

A

D

C

8

9

10

11

3800

3800

4050

4050

4050

4050

4050

4050

4050

4050

MAIN CORE W LOWER FLOOR HIGHER FLOO

3800

40000

F

E

6

7

40000 G

A’ 5

4050

B1

2

3

42000

B1

B2

H

G

J

I

A

K

B

D

C

INTERNAL NO

F

E

H

G

J

I

K

20m

A

B

A

D

C

F

E

H

G

J

I

B

C

D

E

F

G

H

I

J

K

K

40000 3800

4050

4050

4050

4050

4050

4050

4050

4050

EB1

EB1

EB1

EB1

EB1

EB1

EB1

EB1

3800

EB1

EB1 B1

B1

2

B1

B2

EB1

4050

4050

B1

B2

EB1

Crown Frame

3 B2

EB1

B2

EB1

B1

B1

EB1

EB1

B1

B1

EB1

EB1

B1

B1

EB1

EB1

4050

4050

2

3

4900

1

4900

1

4

MECHANICAL FLOOR

5

197.000

4050

4050

5

42000

193.500

6

190.000

4050

4050 7

186.500

7

4050 4050

8

B1

EB1

EB1

B1

Slab For Hotel/Office EB1

183.000

179.500

8 EB1

B2

HOTEL 148M-197M 14F

6

205.000

4050

4050

4

B2

9

9 EB1

EB1

4050

B2

B1

10

B1

B1

B2

B1

10 EB1

EB1 EB1

EB1

EB1

EB1

EB1

EB1

EB1

176.000

172.500

169.000

EB1

165.500

162.000

158.500

11

11 155.000

3800

4050

4050

4050

4050

4050

4050

4050

4050

3800 151.500

40000

Beam System B

A

C

148.000

D

E

F

G

H

I

J

K

MECHANICAL FLOOR 140.000

136.000

132.000

128.000

LOW RISE OFFICE 84M-140M 14F

124.000

120.000

116.000

112.000

108.000

104.000

100.000

Slad with balcony between two layers of skin

96.000

92.000

88.000

84.000

MECHANICAL FLOOR 76.000

72.000

68.000

64.000

60.000

MEDIUM RISE OFFICE 20M-76M 14F

Belt truss, Outrigger truss, Mega column

56.000

52.000

48.000

44.000

40.000

36.000

32.000

28.000

24.000

20.000

PODIUM 0M-20M

5m

3

4050

EB2

EB2

4700

0m

EB2

42000

B

A

EB2

B1

40000

1:200@A1 Hotel Plan

3

1

4050

4050 10

K

3800

4050

4050

B1

EB2

4050 9

2

4050

4050

3800

EB2

B2

1

2

4050

4700

EB1

8

9

4700

4050

B2

B1

8

4700

B1

EB2

4050

42000 B1

7

4050

EB1 B1

6

7

4050

B2

EB1

6

4050

4050

EB1

B2

9

B2

1

4

4050

4050 4050 8

EB2

4050

4050

EB1

EB2

B1

B2

EB2

J

I

4050

4050

EB1

B1

B2

B1

4050

4700

B1

B1

EB2

EB2

B1

H

G

4050

4050

B1

EB1

B1

4050

42000

EB1

7

B2

F

E

4050

4050

EB1

10

D

C

4050

4050

B1

EB2

EB2

EB2

4050

B1

EB2

3800

5

4050

EB1

42000

4050

5

EB1

B

A

K

3800

4900

4

4900 4

4050

4050

EB1

5

6

3

EB2

4050

4050

EB1

4 B1

3

EB2

4050

EB2

4050

B1

2

4050

4050

B2

B2

EB1

1

2

4050

4050

EB1

3 EB1

J

I

40000 4050

4700

B2

1

4050

4050

4050

B1

4050

B2

EB1

B1

4050

4050

EB1 EB1

B1

4050

4050

EB1

EB1

4900

EB1

B1

4050

4900

EB1

EB1

4050

4050

EB1

3800

3800

4050

4050

42000

4050

4050

4050

1

2

H

G

40000 4050

4050

EB1

4050

4050

EB1

4050

42000

4050

4050

E

40000 4050

4700

D

C

3800

4700

B

A

±0.000

MECHANICAL FLOOR -6.000

-9.000

-12.000

Podium Arch Structure 1:500@A1

PROJECT

TITLE

DID TOWER

SUBJECT

A 01 FINAL

Applied Architectural Technology

0m

12.5m

25m

50m

DRAWN BY Di Wu Dongyao Zhang Mingxuan Ze

TUTORIAL NUMBER 04

GROUP NUMBER Group A

SCALE(@A1) As Indicated

STUDENT ID

TUTOR Mark Lam

CHECKED BY

SHEET NUMBER DATE 18/06/2021 0

7


BUILDING ENVELOPE CONCEPT A

B

C

D

H

C

D

H

C

D

H

D

H

11900

C

4050

4050

2400

C1 EB2

B1

HC

3550

2400

900

3500

900

3800

A

Section 1

1 A

B

C

D

B

A

1 : 100

B 11900

H 3800

11900 4050

4050

4050

4050

C1

4000

B1

B1

4000

A

B

C

D

H

A

1

LC

2650

2400

3550

EB2

HC 960 150

EB2

2650

2400

C1

900

3500

900

960 150

3800

Section 1

0m 1:100@A1 Section 2 2.5m

2

1 : 100

B

C

10m

5m

1 : 100

B

A0

A

5120

B

3325

C

4050

D

4050

E

4050

F

G

49040 4050

4050

H

4050

I

J

4050

4050

K

3325

L

4870

-3

1920

VOID

6100

-2

Hotel Lobby / Automobile 4S Shop

Administration Office

-2

6100

-3

1920

Section 2

2000 3675

-1

2000

0

3675

-1

0

4425

1

4425

1

4050

2

4050

2

Building Reception

4050

3

4050

3

Tenancy

4050

4

4050

4

5

5

6

4050

69315

Office Lobby

69315 4050

6

4050

4050

Section 1

Setback 14600

4050

7

4050

7

Tenancy

4050

4050 4050

8

A

4050

8

9

9

4225

10

4225

10

4050

11

4050

11

4050

12

4050

12

13

13

Tenancy

Tenancy

Tenancy

Tenancy 6470

Tenancy

6470

Tenancy

14

14

5120

3325

4050

4050

4050

4050

4050

4050

4050

4050

3325

4870

49040

Loading Bay A0

A

B

C

D

E

F

G

H

I

J

K

L

Section 2

1:500@A1

0m

12.5m

25m

50m 1:150@A1

PROJECT

TITLE

DID TOWER

8

SUBJECT

A 01 FINAL

Applied Architectural Technology

0m

5m

10m

20m

DRAWN BY Di Wu Dongyao Zhang Mingxuan Ze

TUTORIAL NUMBER 04

GROUP NUMBER Group A

SCALE(@A1) As Indicated

STUDENT ID

TUTOR Mark Lam

CHECKED BY

SHEET NUMBER DATE 18/06/2021 0


DOUBLE FACADE

ENVIRONMENTAL BUILDING SYSTEM DIAGRAM

PROJECT

TITLE

DID TOWER

SUBJECT

A 01 FINAL

Applied Architectural Technology

DRAWN BY Di Wu Dongyao Zhang Mingxuan Ze

TUTORIAL NUMBER 04

GROUP NUMBER Group A

SCALE(@A1) As Indicated

STUDENT ID

TUTOR Mark Lam

CHECKED BY

SHEET NUMBER DATE 18/06/2021 0

9


DETAIL DRAWINGS LEVEL 12

FFL 56.18m

FFL 56.18m

1350

SILK-SCREEN PRINTING ON GLASS FOR SUN SHADING 5

CUSTOMISED CURTAIN PANEL

02

2650

ATRIUM THERMALLY BREAK HORIZONTAL STACK JOINT FFL 52.18m LEVEL 11

FFL 52.18m 2 1310

02

REAR MOUNT STRUCTURAL FIXING BRACKET 1

2690

02

HIGH STRENGTH STEEL ROD FFL 48.18m

FFL 48.18m

FFL 48.08m

1310

LEVEL 10

302 ---

4

ARCAT LOUVER, K605D, 5 IN DRAINABLE HEAD & BLADE, SIGHTPROOF BLADE

2690

02

FFL 44.18m

FFL 44.18m

1310

LEVEL 9

6 02

2690

OUTRIGGER STRUT

FFL 40.18m

LEVEL 8

FFL 40.18m

G

1

1350

ATRIUM

F

Elevation

2

1 : 50

F

Section 1 : 50

F

G

G 4050

H

H 4050

I 4050

J 4050

750 X 750 SHS MEGA COLUMN

1

2

3

Isometric

4

1 : 50

PROJECT

PROJECT

TITLE

DID Tower DID TOWER

10

TITLE

Plan 1 : 50

SUBJECT

A04.01 A 01 FINAL

Applied Architectural SUBJECT Technology Applied Architectural Technology

DRAWN BY

TUTORIAL NUMBER

GROUP NUMBER

SCALE (@ A1)

Di Wu

04

Group A

1 : 50

STUDENT ID

TUTOR

CHECKED BY

DATE

Mark Lam

Mingxuan Ze & Dongyao Zhang

29/05/21

DRAWN BY 860315

Di Wu Dongyao Zhang Mingxuan Ze

STUDENT ID

TUTORIAL NUMBER 04 TUTOR Mark Lam

GROUP NUMBER Group A CHECKED BY

SHEET NUMBER

SCALE(@A1) As Indicated

01

SHEET NUMBER DATE 18/06/2021 0


250X250 MICROTAC RAISED FLOOR SYSTEM

φ250 400 UB TRUSS AWS CURTAIN WALL SYSTEM

800 X 400 RHS

FACTORY FITTED CLEATS AT PANEL FOLDS

OPTIONAL PERFORATED ALUMINIUM VERTICAL SHADING PANEL (WEST) DOUBLE GLAZING WITH SILK-SCREEN PRINTING FOR SUN SHADING

750 X 750 SHS

900X600 CONCRETE BEAM

HOLLOW CHAMBER TO CONCEAL THE LONG JOINT STEEL PLATE

L-ANGLE BOLT

750 X 750 CONCRETE COLUMN 150 CONCRETE SLAB

25MM CONNECTOR PLATE WITH 12.5MM CENTER STIFFENER

φ170 RHS OUTRIGGER STRUT WELDED TO 250X250 RHS GIRT

φ25 SLIP CRITICAL CONNECTION

250X250 RHS GIRT

CAST-IN ANCHORAGE

150 Bondek ADJUSTABLE BRACKETS CONNECTOR PLATE MICROTAC RAISED FLOOR SYSTEM

Architectural Window Systems (AWS) Curtain Wall Systems/ Series 168 (Thermally Broken and Thermally Improved Curtain Wall Solutions)

CAST CONNEX HIGH STRENGTH UNIVERSIAL PIN CONNECTORS (OR APPD. EQUIV)

PFC WELDED ON THE RHS PIPE

METAL SPANDREL PANEL 40MM SAG ROD OPTIONAL PERFORATED ALUMINIUM HORIZONTAL SHADING PANEL (NORTH)

750X750 RHS MEGA COLUMN Capral Aluminium CW150 Curtain Wall

RECCESSED FLUORESCENT LIGHT FIXTURE

KINGSPAN FOLDED ALUMINIUM BOARD Arcat Louver, K605D, 5 in Drainable Head & Blade, Sightproof Blade

1

Section Detail 1

MICROTAC RAISED FLOOR SYSTEM CONCRETE SLAB

Rondo KEY-LOCK Suspended Ceiling System

BONDEK STUD Kingspan Folded Aluminium Sheet

http://www.microtacsystems.com.sg/office/ https://www.awsaustralia.com.au/specifyaws/series168-curtain-wall

ALUMINIUM STUD SCREWED TO RHS

Capral Aluminium

https://www.capral.com.au/product/cw150-curtainwall/

L ANGLE BOLTED CONNECTION

Arcat

https://www.arcat.com/cad/airolite/10200256.pdf

ALUMINIUM FIXING EXTRUSIONS

Rondo

https://www.rondo.com.au/products/ceilings/keylock-concealed-suspended-ceiling-system/

SEALANT

Kingspan

https://www.kingspan.com/meati/en-in/productgroups/architectural-facade-systems/panelisedfacade-systems/evolution

ARCAT LOUVER, K605D, 5 IN DRAINABLE HEAD & BLADE, SIGHTPROOF BLADE 800X400 RHS TOP CHORD OF THE BELT TRUSS TO BIND MEGA COLUMNS

1 : 50 10mm GAP FOR CONSTRUCTION TOLERANCE

FEMALE MULLION MALE MULLION FIXING BOLTS

THERMAL INSULATION

CAST-IN ANCHORAGE

SUSPENDED CEILING HANGER

FIRE STOP CAST-IN INSERT 300MM WITH 3 ANCHORS NON-SERRATED CHANNELS + HS BOLTS PVC PACKER

RECCESSED FLUORESCENT LIGHT FIXTURE

ALUMINIUM LBRACKET SUSPENSION ROD

GLASS SPANDREL PANEL REPLACED WITH METAL PANEL

SUSPENSION CLIP OUTRIGGER TRUSS WITH PAINTING AND FIRE-PROOF COATING

TOP CROSS RAIL FURRING CHANNEL

1:5

Section Detail 3

PROJECT

DID TOWER

CONCRETE MEGA COLUMN

FLOOR ANGLE BRACKET. ALUMINIUM WITH SLOTTED HLOES AND SERRATED PROFILE

STACK COVER STACK HEAD SINGLE SPANDREL PANEL

GASKET

ANCHOR BOLT

FIXING BOLTS. M12 WITH 5MM FLAT WASHER

OUTRIGGER TRUSS'S WEB WITH PAINTING AND FIRE-PROOF COATING

REBATE IN CONCRETE SLAB GROUT BACKFILL RAISED ACCESS FLOOR

SMOKE FLASHING. 0.6MM THICK FOLDED GLAVANISED STEEL SHEET

INTERMEDIATE PEDESTAL

CAST-IN INSERT. 300MM LONG WITH 3 ANCHORS

FIRE STOP

THERMALLY ISOLATED BRACKET (ADJUSTABLE)

THERMAL INSULATION

STEEL PLATE WELDED ON PFC PFC WHOSE FLANGES WERE WELDED ON THE 250X250 SHS

VENTED AND DRAINED CAVITY

TITLE

1 : 10

INTERMEDIATE PEDESTAL

CAST-IN ANCHORAGE

ALUMINIUM MULLION WRAPPING AROUND THE BOTTOM CHORD OF THE OUTRIGGER TRUSS TO CONCEAL THE JOINT

BCAK PANEL SILL TRANSOM

BLIND PELMET

VISION PANEL

Section Detail 5

6

1 : 10

TITLE

DID Tower

Section Detail 4

MICROTAC RAISED ACCESS FLOOR

DOUBLE GLAZING WITH SILK-SCREEN PRINTING FOR SUNSHADING

5

1:5

4

1 : 10

STEEL PLATE WELDED ON THE 250X250 SHS PERIMETER GIRT CAST CONNEX HIGH STRENGTH UNIVERSIAL PIN CONNECTORS (OR APPD. EQUIV)

Plan Detail 2

Rondo KEY-LOCK Suspended Ceiling System

CEMENT SHEET CEILING

REBATE IN CONCRETE SLAB FLOOR ANGLE BRACKET CAST-IN INSERT. 300MM LONG WITH 3 ANCHORS 20MM THERMAL BREAK

Plan Detail 1

PROJECT

THRESHOLD WITH LIGHT-GAUGE STEEL STUDS AS STRUCTURE

STEEL BASE PLATE

ANODISED ALUMINIUM VERTICAL MULLION WITH 200MM LONG EXTRUDED RETENTION BRACKET

8

ALUMINIUM FIXING EXTRUSIONS

ANGLE CLIP WELDED TO STUD AND BOLTED TO SLAB

3

7

GLAZING SLIDING DOOR PANEL SLIDING DOOR SILL

THERMAL BREAK

AWS

Product Schedule

1 : 10 CONTINUOUS RUNNER CHANNEL KINGSPAN ALUMINIUM SHEET HORIZONTAL CHANNEL BRACING

BONDEK

KINGSPAN FOLDED ALUMINIUM BOARD

MICROTAC

a

Section Detail 2

2

1 : 10

SUBJECT

A04.02 A 01 FINAL

Applied Architectural SUBJECT Technology Applied Architectural Technology

Section Detail 6 1 : 10

DRAWN BY

TUTORIAL NUMBER

GROUP NUMBER

SCALE (@ A1)

Di Wu

04

Group A

As indicated

STUDENT ID

TUTOR

CHECKED BY

DATE

Mark Lam

Mingxuan Ze & Dongyao Zhang

29/05/21

DRAWN BY 860315

Di Wu Dongyao Zhang Mingxuan Ze

STUDENT ID

TUTORIAL NUMBER 04 TUTOR Mark Lam

GROUP NUMBER Group A CHECKED BY

SHEET NUMBER

SCALE(@A1) As Indicated

02

SHEET NUMBER DATE 18/06/2021 0

11


YEAR: 2019 | LOCATION: Melbourne, Australia | STUDIO: Architecture Design Studio: Fire | TYPE: Academic Individual

CARLTON CELLS A COMMUNITY HEALTH CENTRE IN MELBOURNE Studio Fire is the capstone subject for undergraduate to design a community health centre to deliver cultural, health and commercial services in Melbourne. Considering multiple purposes and needs, Carlton Cells provide diverse medical and pleasure space for staffs and community members to embrace life, well-being and healthy.

Master Plan at 549 Lygon Street, Carlton

CONCEPT DIAGRAMS

+ Equipment & space different professions need

= Packaging equipment & space in different rooms

The aggregation of different rooms

SITE ANALYSIS

Site boundary

Green space & Vegetation

Surrounding land use Student hotel, social housing, residence & cemetery

12


Final render from South East perspective

PRECEDENTS & INSPIRATION

RESEARCH & ANALYSIS Nurse

GP

Allied Health Allied Health Allied Health

MUJI storage box

Nakagin Capsule Tower

Current sunken car park & Refill Strategy

Bluestone around the site

Diagram: Patient Flow & Hierarchy

Transportation & Accessibility

Diagram: Vertical & Horizontal Zoning

Heavy traffic and noisy networks

Tram, car, bicycle and pedestrian

13


MODULARITY DESIGN CLINIC SERIES

14


OFFICE & ADMINISTRATION SERIES

15


AMENITIES SERIES

16


Model from North West: piled up the modular cells based on site analysis and program analysis (Daylighting & permeability)

Model from South East: piling up the modular cells based on site analysis and program analysis (Sun path, networks & accessibility)

MASSING

FORM GENERATION

Quiet area

Activities

Quiet area

Clinic (Specialists)

View towards green space

Public & Commercial

L2

L1

G

Offices

Clinic (General)

Spatial arrangement & Design process via programme analysis

PROGRAMMING Mental Health Quiet Area

Multi-purpose Room

Toilet

Meeting Room

Physiotherapy

Occupational Therapy

Mental Health

Offices

Pharmacy Staircase

GP Nurse

Teaching & Training

Commercial (Cafe, Restaurant & Pharmacy)

17


d

e

10 1

11 19

1

1 4

1

18

3

12

7

1 3

3

12

c

15

6

13 14

a

18 16

22

17

17

GROUND FLOOR PLAN & LANDSCAPE

Second floor

First floor

1. GP consultation 2. Nurse consultation 3. Treatment room 4. Soiled utility room 5. Clean supply room 6. Reception & record room 7. Nutrition consultation 8. Pharmacy 9. Waiting area 10. Shared office 11. General office 12. Coordinator office 13. Executive office 14. Administration office

18

15. Meeting room 16. Teaching and training room 17. Cafe, restaurant & bookshop 18. Toilet 19. Gym 20. Changing room (public) 21. Meditation room 22. Bike repair 23. Physiotherapy (Physio) consultation 24. Occupational (OT) consultation 25. Physio & OT Gym 26. Disabled change room 27. Speech therapy 28. Mental health consultation

17

b

9

8

21

29. Mental health group therapy 30. Staff lounge 31. Multi-purpose room 32. Quiet room 33. Head & board office 34. Staff office 35. Public lounge a. Entrance b. Atrium c. Reading & music corner d. Sunken garden street e. Car park, entrance & exit f. Gallery

Ground floor

Basement Spatial Relationship

1 19

3

5

13 20

2

2


25

23

26

23

23

24

9

15

24

27

15 27

12

6 16

10

16

f

29

9 18 29

28

28

28

12

30

12

FIRST FLOOR PLAN e 15 31

e

15

31

18

15 20

33

20

33

10

35 30 32

18

32 34

BASEMENT

SECOND FLOOR PLAN

SOUTH ELEVATION

NORTH ELEVATION 19


Section A - A'

Section B - B' 20


DESIGN REALISATION - STRUCTURE & DETAIL DESIGN A A

B

Detail Drawing: Roof & Parapet

B

C

Detail Drawing: Box gutter & Ceiling

C

D

D

Detail Drawing: Intermediate floor & Bondek

E

Detail Drawing: Parapet & Waterproofing

E

Detail Drawing: Brick Cavity

Overview of Construction Drawing

21


Final Render from South East Perspective: Entrance

MATERIALITY Materials respond to site contexts but introducing new and light-weight materials to create bright and pleasure spatial qualities.

22

Vernacular rough bluestone

Vernacular smooth bluestone

Brick responding to site contexts

Interior white precast concrete panel

Prefabricated steel structure as expression

New material Translucent polycarbonate

Final Render: interior Atrium showing spatial quality


YEAR: 2018 | LOCATION: Melbourne, Australia | TYPE: Academic Individual

CONSTRUCTION SUBJECT CONSTRUCTION DESIGN The subject is the capstone construction subject for undergraduate to understand more in-depth about material properties, the design of structures and tectonics, construction and building performance through deconstructing parts of a built project (Bio21 Science Sub School University of Melbourne Parkville Campus).

Physical Model showing the partial structure details of the building

Axonometric Drawing showing details, tectonic and construction of the building 23


YEAR: 2020 | LOCATION: Melbourne, Australia | STUDIO: CDE Studio 30 | TYPE: Academic Individual

RESONATE AN OUTDOOR ACOUSTIC SHELL IN COLAC QUARRY, MELBOURNE This studio aims to revitalise a quarry through a main stage and masterplan. The design of the main stage was acoustically optimised through parametric iterations and an in-depth study of the materials, structure and lighting design, in order to provide an optimal visual and aural experience for the 15,000-seat auditorium.

Masterplan for the Revitalization of the Quarry

24


Final render from North West perspective Site Analysis

Plain & flat

Sunken

Mounds

Cliff

Natural elements

Activity

Landform

Picnic & camping Resort, Food, sightseeing & boat Main stage

Festival Core

Music museum

50

25


ACOUSTIC SHELL DESIGN: PARAMETERS AND CONSTRAINS Parameters 1. 2. 3. 4. 5. 6. 7. 8.

Width (w) Height (h) Front control points1 parameter (x) Front control point 2 coefficient (a) Front control point 1 depth (d1) Back control point 1 parameter (y) Back control point 2 coefficient (b) Back control point 1 depth (d2) Starting Point Control points on front curve Control points on back curve

Point 3

ACOUSTIC MULTI-OBJECTIVE OPTIMIZATION

26

Point 2

Point 1

Point 0


ACOUSTIC MULTI-OBJECTIVE OPTIMIZATION Objective

Sound Source 2

1. Sound Pressure Level 2. Standard Deviation of the Sound Pressure Level

Target region

Sound Source 0

ITERATION

Sound Source 1

DESIGN INTENTION

Continuity with the land

Concealed access to back stage

Continuity with the land

Structure supporting

Stage

Structure Concealed access supporting to back stage

27


MASTERPLAN OF THE MAIN STAGE

PROGRAMMING Lounge

Lounge

Lounge

Lounge

Lounge

Lounge

Office

Green Room

Green Room

Green Room

Green Room

Office

Conference Room Locker Room

Makeup Room

Men Dressing Room

Women Dressing Room

Makeup Room

Stage Corridor

Stair

Stair

Stage Wings

Main Stage

Stage Wings

Seats

Ticket box

SECTION AND LIGHTING DESIGN

28

Control room

Laundry/ Shower

Equipme nt

Sets Storage

Loading Bay

Toilet

Toilet

Rehearsal Room Warmup

Café food

Restro om

Merch andisi ng

Piazza

Toilet

Loading Bay

Sets Storage

Press Hall Journalist / Photographer / Media office


PLANS Main Stage Basement Level

4 15

15

16

16

3

12

5

2

14a

12a

9

2a

12a

12

12

12a

14b

6 13

A

7

1

S

A 14

7 6

12

12a

14b

12

2a

12a

2

9

3

8

15

12

15

16

12a 14a

11

10

8

16

4

Ground Floor Plan 1:100

Main Stage Ground Level

S

S

15

15

16

16

12

14a

12

9

14b 12

A

15

S

17

A

18

12

14b

9 12

19

1. Main stage 2. Preparation space 2a. Stage door access 3. Staircases 4. Journalist/Photography/Media/ Interview 5. Rehersal/ warmup room 6. Makeup room 7. Dressing room 8. Equipment room 9. Open lounge 10. Laundry 11. Locker room 12. Green room 12a. Independent rehersal/warmup rooms 13. Shared office 14. Back storage 14a. Electricity well 14b. Fire-escape staircases 15. Conference/meeting room 16. Toilet 17. Control room 18. Press hall 19. Manager office 20. Conductor/concertmaster office Temporary facilities and services S. Ticket box, casual dining/ food truck, vendors, popup shops, cafes, bars, mechandising, restrooms, moveable toilets

15

19

15

20

16

12

14a

16

S

S

First Floor Plan 1:100

29


DETAILING Primary steel structure RHS

a

c Acoustic/Thermal insulation

Smooth & tinted Aluminium sheet MDF stiffener

100 UB Hoist

Primary steel structure

LED strip Steel trim

Steel cable

Steel girts

Rivet 2 layers of 18mm plywood 100 UB Bolts Timber shim/gasket Bracket factory riveted to formed metal panel Flushmount anglefield attached to wall Field fastener

2 Layers of plywood/ acoustic panel Details see Detail c 100 UB Nogging

Screws Waterproofing membrane

0 10

50

100 mm

b Steel truss

Moving head

Spotlights, Hologram projectors, Parabolic reflectors, etc.

Stage platform Concrete slab

A

Insulation Steel roof/ C-section purlins

Compacted engineer fills

Space truss 2D Truss primary structrue

Bored pile

Rigid joint with bolts Steel plate beam Truss and stage lighting Acoustic shell

Inside acoustic shell

B

0 10

Walkable Concrete Roof

Space truss

100

200 cm

Primary truss - shear with RHS lateral supportings

d

a

c

b

Flexible stage platform

e

Concrete slab

Bored pile footing 0

30

1

5

10 m


Final render - Stage Lighting Design

d

f 1mm MasterSeal 550K coating (white) Sand & cement screed Geotextile/polyethylrnr sheet Waterproofing membrane Spray polyurerhane foam insulation Concrete slab Steel studs Bondek Space truss Ball joint Pin joint Anchor bolts

Space truss Steel studs Ball nodes/joints Steel supports/plates bolted on primary structure Primary truss structure SHS/RHS lateral supportings 90X45 timber top plates/studs

Equal angle Overlapping Steel well lid Stormwater drainage gutter Backfill Crushed stone Drainage mat Waterproofing membrane Retaining wall

C

Thermal insulation Plywood/plaster

f

e Primary steel structure - RHS truss Steel plate Anchor bolts Concrete band beam Steel reinforcement bars

Mass concrete platform

0 10

100

200 cm

Bored piles for poor soild conditions

Band beam 0

1

Taped concrete retaining wall 5

10 m

31


YEAR: 2018 | LOCATION: Melbourne, Australia | STUDIO: Architecture Design Studio: Beta & Earth | TYPE: Academic Individual

PERMEATION A COMMUNITY ESTATE PROTOTYPE FOR MELBOURNE Studio Beta & Earth is a prototype project to develop a community estate and pleasure garden for Melbourne’s contemporary suburbs. This project explored the permeability and flexibility in a communal space through creating the interest of serpentine and vertical experience within Melbourne flat suburb.

40 m 30 m Prototype Site Plan

Master Plan 32

Precedent: Alison & Peter Smithson, Golden Lane City


ANALOGY

cm

Diagram indicating the relationship among city, suburb and the site is like that among leaf, vein and cell

X100 μm

mm

Leaf

X10 km

Lamina

X100 m

City

District

Vein

X10 m

Cell wall

Cell

cm

Block

ANALYSIS

mm

Parcel

House

CONCEPT Private

Public Diagrams analysing Melbourne suburb residential space: Scale, Space Hierarchy, and permeability

Diagrams showing Serpentine & Vertical Permeability

DESIGN DEVELOPMENT Private

Transition

Public

Figure grounds

Diagram: Spatial Hierarchy & Zoning

Diagram showing Massing

Diagram showing Final Form 33


15

b

b 14 14

14

SECOND FLOOR PLAN 12

13 11 c

10

8

9

7

a

6 5 3

2

1

1. Cafe 2. Information centre 3. Community theatre 4. Community library 5. Gathering space 6. Gallery 7. Workshop 8. Administration offices 9. Green room 10. Sightseeing & lounge 11. Toilet 12. Kitchen 13. Laundry 14. Single short-stay bedroom (Double bedroom with oper 15. En-suite bedroom a. Green space b. Garden c. Water feature d. Open deck roof e. Ramp

GROUND FLOOR PLAN 34


d

b

b 14

14

14

N

d

11 10

8

e

5 4

d

rable door) 1

FIRST FLOOR PLAN 35


Section A - A'

Section B - B' (Public zone)

Section C - C' (Private short-stay zone) 36


Final Render from South

DESIGN REALISATION & STRUCTURE DESIGN

CIRCULATION & GREEN SPACE Ramps

Perforated Brick Wall reinforced by the middle steel bars Steel Frame

Steel Equal Angle supporting bricks

Green Space

Glazing

Thickened Concrete Slab with Deeper Edge Beams / Piles to resist the moment created by slanted wall

Detail Drawing exposing the structure of slanted wall

Diagram showing the serpentine circulation 37


Model Isometric from South West

Model Isometric from South East

Final Render showing materials & experience 38

Final Render Looking up from ground floor


SPATIAL QUALITY

Final Render: Public Gathering Space (Ground Floor) showing the permeation of Light through perforated brick wall and glazing

Final Render: Open Space

Final Render: "Sky" Ramp

Final Render: Gallery & Daylighting permeation

Final Render: En-suite Bedroom 39


YEAR: 2018 | LOCATION: Melbourne, Australia | STUDIO: Architecture Design Studio: Air | TYPE: Academic Individual

GENETICS THE RECLAMATION OF SPACE IN MSD Studio Air explored speculative thinking and parametric design through recursive and iterative algorithms which was inspired from L-system. This project simulated the law of genetics and applied these rules under the interaction with environments. The aggregation through recursion reclaims the space of the atrium in Melbourne School of Design with playability and the interest of transformation.

Precedent: L - system

Site Location - Melbourne School of Design: Hanging Studio in Atrium

"Wasted" Space

Space can be used

Hanging Studio

Crowded space Site Analysis showing the space can be reclaimed 40

Precedent: Bloom project


Render looking down from the top of Hanging studio 41


DESIGN PRINCIPLES & LOGIC 01

04

Site analysis

05

Conditional Rules

02

03

Aggregation & Form

Ruleset & Recursion

Gene coding

COMPONENT DESIGN

Final Component

Node Differentiation Standardised Plug

Node & Skin Design

Double-slot Node

Single-slot Node

Single-slot Node

Node Standardisation

Thumbnail testing the design of component, material & the form of the aggregation 42

Assemblage Instruction


RECURSION RULES & ALGORITHM 01

02

03

04

05

06

07

08

09

10

11

12

Diagram: The growth of second generation (based on the first generation's coordinate system and obstacles)

Site Photo showing Hanging Studio in MSD

AGGREGATION

Iteration = 5

Iteration = 10

Iteration = 15

Iteration = 20

Iteration = 25

Iteration = 30

Iteration = 35

Iteration = 40

Iteration = 45

Iteration = 50 43


Final Aggregation Aerial View From North West Perspective

A

D

B

Secondary component local differentiation

C

Model visualising ruleset

RULESET 1

RULESET 2

AXIOM = AB

AXIOM = AD

A = AB B = BC C = ABD D = BC

A = CD B = BC C = ABD D = BC Primary aggregation ruleset 1

3RD GENERATION 2ND GENERATION RULESET 1 1ST GENERATION AXIOM 1 AXIOM 2 1ST GENERATION 2ND GENERATION

RULESET 2

3RD GENERATION

Diagram showing the rules for recursion 44

Primary aggregation ruleset 2


Render from Bottom Perspective

North Elevation 45


Final Render from South West Perspective

Physical Model showing changeable form 46

Diagram: ball joint performance


Physical Model

Final Render from West Perspective 47


YEAR: 2020 | TYPE: Practice Project | CONTRIBUTIONS: Schematic Design, Design Development & Construction Documents

PRACTICE A COMMUNITY RESTAURANT AND ACTIVITY CENTRE This practical public building project provides a public recreational space of meeting, dining and communicating for the village through the renovation and functional expansion of an existing residential building, while preserving and deepening the villagers’ vernacular memories. I was responsible for the entire building scheme design, making adjustments to the scheme under the supervision of the architect. Parametric design tools, topology optimisation programs and BIM software were used throughout the project for designing, modeling and producing drawings. I also work with structural and systems engineers to complete design adjustments and construction drawings. The project is now almost complete.

48


ARTWORKS - PRODUCT DESIGN

49


YEAR: 2021 | TYPE: Scene Rendering + Post Production | TOOLKITS: Rhinoceros + Grasshopper + Enscape + Photoshop

ARTWORKS

50


51


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