portfolio_rev

Page 1

P o r t f o l i o

+ Josy Yu + Architecture + Design


Exhibi�on

Experience & Awards

C V

-Final Exhibi�on FCU, Taichung City, 06/2018 -Final Exhibi�on FCU, Taichung City, 01/2018 -Nuit Blanche NTU, Taipei City, 10/2017

JOSY YU YU CHIEH / 游婕 +886 21 550 389 s3644750@student.rmit.edu.au h�ps://www.pinterest.com/josy3358/ h�ps://www.facebook.com/yuchieh/

Workshop

contact

-Architecture Exchange Program RMIT, Melbourne, Australia, 02-07/2017 -Mixed Reality Robo�c Fabrica�on Interface for Design Explora�on Workshop Taichung City, 09/2018 -ETH Workshop Taipei City, 12/2017 -JWU Workshop Tamsui, Taipei City, 08-09/2017 -Water and Shadow Workshop Vienna, Austria, 10/2016 -JWU Workshop Tokyo, Japan, 08/2016

Educa�on

-Dong-Shang Senior High School Taichung City, 2011-2014

Internship

-Winter Internship (Fielddirektor) Taichung City, 01-02/2018

Awards

-Robo�c Digital Manufacturing Compe��on Honorable Men�oned Taichung City, 09/2018

-Summer Internship (Protoplain Architects) Taichung City, 07-08/2016

-Architecture Compe��on 2016 in Taiwan Honorable Men�oned Taichung City, 02/2016

Verifica�on

-Feng-Chia University Major in Architecture Taichung City, 2014-2019

-Voluntary Program Sri Lanka, 08/2015

-TOEIC Test (scored 895) Taipei City, 10/2017 -IELTS Test (overall 7) Taipei City, 08/2016

Computer Skills Adobe Photoshop Adobe Illustrator Sketchup Autocad Rihno Grasshopper Adobe Premiere

Design Skills

Architectural Drawing Sketch Layouts Idea&Imagina�on

Languages Mandarin English Japanese


+ 05// WALKIN’ DOWNTOWN TAICHUNG OLD TOWN COMPETITION

C O N T E N T S

+ 06// RESILENCE HIGHRISE DESIGN PROJECT + 07// URBAN ANTI-PLANTING SYSTEM 1:1 SCALE CONSTRUCTION PROJECT + 08// COMMUNITY TREE IN BETWEEN UTOPIA AND HETEROTOPIA SOCIAL HOUSING PROJECT IN JWU WORKSHOP + 09// THE GALLERIE YAC COMPETITION TEAM WORK + 10// CONCRETE TYPOLOGIES ROBOTIC DESIGN AND GENERATING PATTERNS + 11// THE PRACTICE OF CONSTRUCT AND DECONSTRUCT THE 1:1 SCALE PROJECT + 12// CUSTOMIZED THIN SHELL SYSTEM CLAY 3D PRINTING






The design is about a highrise around 35 floors, located in Australia, Melbourne CBD.

06

The concept is SILENCE, related to the situation that the city is facing---”It’s hard to find a nice and quiet corner.” Therefore I started to discuss with the issue and the strategy was to create a long gap for people to interact in the space, and otherwise people don’t talk or conversate with each other beyond the gap. The analysis was based on the transportation and human flow to avoid the noise effected by the environment.

HIGHRISE DESIGN STUDIO

MELBOURNE CBD


E

D

C B

A

perspectives and sections


07

gas station park locations of magnolia in taipei

URBAN ANTI-PLANTING SYSTEM

commercial area educational area green area (parks) industrial area


Magnolia, a kind of flower species special to Taiwan. It’s hughly related to the poor and voluntary activities. The aim in this project was to design a movable stand which fit human scale and emphasized on how it combined with the environment in and outside.

Taipei Residents Density Contrast

pros:short space distance cons:interrupt mutually

Taipei MRT Station Human Flow

大安 大同 松山 萬華 中正 信義

The strategy was called URBAN SUBTRACTION, seperated into three parts, first was SURFACE, analyzed and zoomed in the spots to produce Magnolia in different hierarchy of urban. Second was LINE, to redifine the transportation ways based on the spot central decided by “surface strategy”. Last was POINT, to redecide the points that vendors used to sell flowers.

increase decrease


The Daily Life of Magnolia

6:30PM

8:30PM

採花/花農

9:00PM

01:20AM

01:51AM

運送/批發

05:20AM

整理/批發

07:09AM

減少產銷時間距離 需要快速地被看見 新鮮度

自產自銷

08:17AM

-自成產銷通路的機制 -社會議題(弱勢) -販售方式非定點

05:02PM 販售/花販


The Market Operation System of Magnolia

The Market Demand of Magnolia 屏東縣市52公頃(83%) 台北需求量300斤以上(10%)

100元

200元

花農

盤商

其他縣市12公頃(17%)

花販

屏東縣市其他地方10多公頃(24%)

一天平均採收50-60斤(一人/10斤) 每斤平均約100元上下(200元) 一公頃年產值約50幾萬

玉蘭花攤販 一日:77-100多位的範圍 至少300位在台北

高樹+鹽埔鄉40多公頃(76%)

Eg.一串花成本5元 一串20元,三串50元 則利潤15元

全台需求量3000斤

供給

Strategy Proposal

住宅區 商業區

RETURN THE LAND

農地區

屏東高樹鄉土地使用分區

屏東農地21000m2

+

+

12F

12F

10F

大同區

大安區

松山區

1F:635m2

1F:658.5m2

1F:584m2

全台供給量約64公頃

需求


PROGRAMS IN THE RANGE

三個基地

需求銷售點

松山區/鵬程公園:3894m2 大安區/金華公園:4390m2 大同區/朝陽公園:4235m2

10 18 12

加油站 停車場 市場 接送區


CLASSIFICATION OF SELLING PLACES 4 SIZES---MODULE REDIFINE THE SELLING RANGE

步 行

自 行 車

機 車

汽 車

2.4M

停車格(汽車) 6M 1M

停車格(機車) 2M

1.2M

加油設備島 1.8M

0.6M

停車自動系統島

生產基地(公園) 4km/hr

20km/hr

50km/hr 50km/hr

2M

速度

共12點 共54點 共35點 共21點

最小公因數 20CM*60CM

A.加油站 B.停車場 C.市場 Time:8-10min

人行道 停車(機車)格 停車(汽車)格

D.接送區


FLUIDITY OF SELLING PLACES 9:00

7:00

A.加油站

B.停車場

0.8

0.6

11:00

0.2

0.4

15:00

13:00

0.2

0.3

17:00

19:00

0.2

0.3

0.8

0.2

0.6

0.7

B.停車場

A.加油站

C.市場

0.6

0.2

0.1

0.1

0.4

C.市場

D.家長接送區

0.7

Time 8:00

D.接送區

0.7

0.1

0.1

0.1

0.5

12:00

17:00

21:00

0.5

OVERLAPPING TIME


CONCEPT IMAGE OF TOWER SECTION

高樓層(地栽)

1m

2.5m

還原

時間

2m

切片服務比例及量

生產

走道

還原

生產

走道 機械

2.5

9

1 1

切片方式探討

以環狀方式計算

4.5m

4.5m

機械

m

高樓層

scale:1/200

低樓層(盆栽)

6.9

3.6

2

1

m

低樓層 還原

生產

機械 走道 scale:1/200

6.9m

3.6m

2m

2m

06:30PM

高樓層(地栽)

08:30PM

採花

轉運空間

10:00PM

暫時存放至早上 大尺寸換小尺寸

05:30AM

低樓層(盆栽)

07:00AM

至各點販賣 攤車因不同銷售點 而有模式及形式上 的變化

The tower was designed in two types, 10 and 12 floors. It included the everyday work that farmers used to do and replaced the transportation of the long distance between north and south of Taiwan, also a transfer station to bring the movable stand to other sellling places. The size of module will change from the upper tp lower, as well as the process of everyday work of Magnolia.


CONSTRUCTION SYSTEM

A.SPLIT THE SLICES

DETAILS

B.REVERSE THE SLICES

offset 15CM C

2100MM 2400MM B

切片 A

框架

水平板與滑軌間的連接

1200MM 1500MM

AXONOMETRIC 75CM

30CM 100CM 30CM

水平板拉出來後接地

30CM

SECTION 62CM

小樑(軌道)

62CM

支撐

STORAGE

SELL

REST

PLAN 實體切片(可滑動)

[TAKE EXAMPLE AS THE GAS STATION]

切片與輪子的連接 A.將框架切片正反相接,組合好後放置支撐上 B.放置小樑於框架切片上

框架切片(固定)

C.將實體切片鎖上輪子固定,及放置滑軌於凹槽中 D.依需求使用,將水平板鎖至滑軌上 E.將白鐵管鎖至水平板上(移動出來)

水平板(可滑動)


The project was located in Nanji Airport Night Market in Taipei.

08

It featured with the additional volumes of the housing and they gradually changed how the elevation looked like before. We discussed not to get rid of all the volumes, based on different buildings facing various environment, we preserved the main structure and some of the additionals, also added new constructions to emphasize it.

JWU WORKSHOP PROJECT

SOCIAL HOUSING IN NANJI AIRPORT NIGHT MARKET


COMMUNITY TREE IN BETWEEN UTOPIA & HETEROTOPIA

re-arranged 2F PLAN scale:1/400

additionals

family type

Building A

elder living alone/youth

sharing space

original residents

Building B

facilities

Building C

We started t currently. Th tion, 43% for additionals, spaces, kids actual spac


d plans

single family/couple

small family

3 generations

scale:1/100

scale:1/200

to analyze the historic site and classify the types of residents living inside here were total 240 units in our site, there were 48% used for self occupar tenancy, and 5% was empty houses. Also after knowing the 5 types of it could tell how the space was lack of for the residents, such as laundry s rooms, kitchen, etc. Therefore we considered and rearranged the ces and programs which fit to various type of family. public space program


structure systerm


09 THE GALLARIE

GREEN ACADEMY DISMECO

It’s a competition which I work with my classmates and tutor as a team in summer internship. From proposal the concepts till we disscussed and intergrate ideas and then focus on one main strategy, and here comes the result. A shuttling gallery, the middle level, is placed in this building, which is aimed to collect information, idea, and sustainable concept, and arouse the inspiration and cooperation between different specialties. Also, as a spoke-landmark, we expect the gallery could spread sustain able green energy and eco-friendly knowledge, by perceiving and respecting the original building texture, and adopt environmental-friend ly construction. Finally, we take the crucial actions to modify this old abandoned factory and look forward to see this building to be a new substance fully ready for next generation


A middle level is created to conform the route of various


The lobby, created in the middle level, shows a great importance in the building. The multifunctional space includes programs such as bookstore and cafe’. It can be regarded as a centre which people may interact with others and also experienced the former atmosphere. Level 3

Level 2

Level M

5

Level 1

1

Waxed Recycled Paper Panel

2

4 2

2

3

C.L.T

6

3

4 2 1

Original Concrete Slab

1. Original concrete floor 2. Stainless joint 3. Cross-laminated timber panel (t=150mm) 4.Waxed recycled paper panel (t=80mm) 5. Stainless joint 6. Air layer (t=100mm)

1.Original Column & Beam 2.Structure Retrofit System 3.Middle Level Floor 4.SC Tiered Seating System

Level 0


SECTION

A middle level is created to conform the route of To make people gather in this platform, we excavate space higher and brighter.


10

CONCRETE TYPOLOGIES

TOP VIEW

ROBOTIC DESIGN AND GENERATING PATTERNS

Learn the mythology of how concrete patterns were generated from replicating the references of RECKLI catalouge.

SECTION


WORKING PROGRESS


600*400 FOAM

e TOOL BLADE

SCRIPT

I’ve decided to work with the oval-shaped blade. And the mythology I want to try is to rotate the tool gradually from different degrees.


1111

THE PRACTICE OF CONSTRUCT AND DECONSTRUCT THE THE PRACTICE OF CONSTRUCT AND DECONSTRUCT THE 1:1 SCALE PROJECT 1:1 SCALE PROJECT DESIGNER:CHENG-JHE, LI & ZIH-HAO, SUN DESIGNER:CHENG-JHE, LI & ZIH-HAO, SUN

大樑a1

小樑b2

小樑b1 組裝順序 1.先將大樑a2位置確認並放置 2.切片順序從A-G,正1反2,架上大樑a2 3.放置小樑b1,b2於切片上 4.放置大樑a1 5.放置最短的樑

大樑a2



+system progress

03_[真實構築發展+實驗成果]

02_[設計發展+構築測試]

01_[前期設計+材料測試]

robot tool A_printing

robot tool B_droplets

raindrops & clay

陶土擠壓罐 馬達

機器位置 壓克力盒子

機器位置

12

Customized Thin Shell System

陶土擠出頭

滴管

clay_3D printing

+result images +concept

垂直侵蝕

水平侵蝕

LIFECIRCLE

/ small scale_lampshade

概念說明圖

以 [雨水] 的方式劃分出內與外的場域

Based on the robotic fabrication-3D printing clay, we tried to carry out a research-oriented design. Started with a scale of architectural elements, and through a wide range of material experiments. Also combined the concept and the innovative method of construction, finally developed a customized thin shell system. The progress including how we optimized the module and operatedfeedback loop of the points.

/ big scale_pavilion

仍留有結構力支撐


01_[preliminary design+material experiment] +material clay erosion testing 以平面方式自然侵蝕

Erosion a.陶土25g+ 滑石粉5g

陶土50g

以立面方式自然侵蝕

雨水侵蝕溶解實驗

滑石粉(矽酸鎂)

a.陶土50g

矽酸鎂+水

b.陶土50g+滑石粉5g

矽酸鎂+碳酸水

+strategy rain trail

b.陶土50g+ 滑石粉5g

droplet method

[地形]控制雨水路徑 控制雨水路徑的過程

rain route

以立面曲面為例

viscosity

A

+相對侵蝕明顯 +時間可被預測(建立data)

雨水路徑 微觀

以地形方式模擬不同半徑之圓錐對應不同高度所影響 的雨水路徑極其紋理 R:1.583cm

B

DROP滴狀式工法

A區域與B區域依照植物形式 設計為需被侵蝕部分

較低處

R:1.328cm

A區域

較高處

因端點造成雨水的分流,因此可以控制其 端點位置來決定雨水路徑

R:0.437cm R:0.728cm

Connection

在考慮結構性所需的黏滯性時,黏 著接觸面積不能過小

R:0.807cm R:0.881cm R:1.073cm

B區域

R:1.069cm

以平面角度為例

被控制侵蝕的區域

total 10 types

雨水路徑

外層與內層的連結

concept thinking: Since the erodible and hydrating characteristic of clay, we developed such particular methods as drop and spray. Through controlling the parametric of water content, drop amounts and height, formed the “topography”on the fabric set in the module, and manufactured a thin shell for deciding the rain route and area to erode. Finally create a space that was divided by the rains and it routes(naturally). design method: By operating TACO in grasshopper to simulate and control the robot, air compressor provided air pressure, using Arduino for the switch of io and air pressure, presented how the route works and extrude the clay. After hard works on testing, we chose a fabric that could perfectly match the clay(with suitable propotion) and bind well together. In the meantime, lock the fabric and bolt properly at different heights in the designed module to form the surface.


02_[design development+fabrication testing]

+material experiment

+fabrication design

innovative methods: Differ from 3D printing’s layering, we researched and developed another extruder to apply to the new methods, which was drop and spray. Drop would combine fabric and clay with gravity itself, then we got the thin shell surface. In the progress, it was important to consider the shrinkage of clay and the tension of fabric.

parameters_reality test

/ suitable volume of water

目的:實驗出不同水量滴墜的效果

A.工具管徑+路徑間距+高度 40%

30%

4mm

50%

減少

3.0mm

貼緊布面

1.5mm

B.手臂速度+陶土濕度+氣壓大小 auto_30 可見條狀塊體堆積無法 形成drop

條狀塊體開始變稀仍 無法構成drop

成功以drop的方式堆積

Result : 50%加水量較佳

67.5%

控制在1以上

C.IO邏輯調整 dropping

/ suitable height

目的:實驗出不同工具距離水平面 之高度差異性

printing

F A B+C+D+E

A

G

A:printing_off B:printing_on C:printing_on +wait_1sec D:printing_off E:printing_off +wait_1sec F:printing_off

10cm:頂端尖錐

15cm:頂端平滑

20cm:頂端輕微凹陷

G(same

B+C

point)

J(last

future aim: We look foward to make this construction method more mature and can offer to larger architecture works. The joints of each surface should be improved and according to this system, research deeper for a better completed data base.

point)

F

E

H+I

D

printing_off printing_on printing_off +printing_on printing_on +printing_off

30cm:頂端輕微凹陷

Result : 15 cm可產生衝擊擴張基底,不會產生凹陷,為較佳工具高度

/ height & diameter parameterize

A.methology_dropping

目的:將不同滴數之直徑與陶土堆積高度參數化

combine the fabric and clay with [gravity]

B.methology_printing

[normal plane] related to the area

TYPE_01

TYPE_02

TYPE_03

先印出網格,之後在節點 上加強

每條線經過節點都繞一圈. 在列印時線就纏繞在一起結 構性較強

knot / structure study

weaving affects the parametric of structure

滴數

10

20

30

40

高度(cm)

0.8

3.2

4.3

3.8

直徑(cm)

3

3.2

3.2

4.3

02_節點間距離

01_節點旁分支數

03_線的寬度

04_線與線的角度

Result : 直徑增加以30~40區間最為明顯

/ suitable spacing 目的:實驗出各個滴下的端點之間需間隔多少才能相互黏著而不會斷裂

type A

觀察測量出端點的間距: 0.35-0.6cm 均沒有裂痕 0.8cm 稍有裂痕出現 1.0cm 幾乎將斷裂 (針筒管徑:0.45cm)

針筒管徑雨滴狀端點間距比例 實驗出的比例大約為0.7-1.3,但可能可以大於1.3而不斷裂

Result : 0.7-1.3為較佳端點間距比例

type B

分支數4

每條線印兩次並排

編織法上影響結構的參數

實驗結果

height

分支數6

接觸端產生彎距

05_層高


03_[feedback loop+construction system]

+feedback loop system 反饋點系統(布面)

帆布

2 points orientation of the module A.手臂以兩點定位模具位置

8 points orientation of the fabric B.手臂以八點定位紗布位置

route testing to form a surface C.模擬以八點連線形成布面

simulation finished D.模擬布面完成

粗紗布

麻布

細紗布

+feedback loop fabric testing applied on the system

+module system optimization 模具優化系統 目的:固定並使布料緊實彈性

A.角鐵所固螺絲

B.壓克力接頭所固螺絲

C.束線帶綁定

模具拆解圖


JOSY YU josyyu0822@gmail.com


Turn static files into dynamic content formats.

Create a flipbook
Issuu converts static files into: digital portfolios, online yearbooks, online catalogs, digital photo albums and more. Sign up and create your flipbook.