Bartlett B-Pro AC/AD Workshop - Component Based Design

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P O H S K ION R O AT W T N N IO ESE T C PR U D AL O R FIN T IN

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: S R O T TU NOLI AG ART B S SB A M EN O TH LEM C L U PA

STUDENT //

Youssef Abdelrahman

01 // COMPONENT CONCEPT

" ! " ! ! # " ! !! "

02 // TAXONOMY OF AGGREGATIONS

03 // ASSEMBLY SEQUENCE

04 // DEPLOYMENT SCENARIO

STUDENT //

Hongyu Pan

STUDENT //

Shuchen Liu

01 // COMPONENT CONCEPT

ref.

02 // TAXONOMY OF AGGREGATIONS

component base 01

example aggregation

component base 02

example aggregation

component base 03

example aggregation

component base 04

example aggregation

03 // ASSEMBLY SEQUENCE

timeline of assembly

04 // DEPLOYMENT SCENARIO

STUDENT //

Wang Jiachen

01 // COMPONEN NT CONCEPTT This structure is easy to assemble as well as life long recycled. The component develop in eight directions . Three different scale of component are formed, gradient get smaller rising from the gound. Acoordingly, more porosity emerges at the higher level of the organism. This design make the whole structure align with the

Snowflake | Workshop 07 WANG JIACHEN

principle of machanics. Form a logical and stable system.

Fractal

Reflection

Porosity

Aggregation

02 // TAXONOMY OF AGGREGATIONS

01 component design process scale type A

02 component deform process

scale type B

scale type C

04 4 // DEPPLOYYMENT SCENARIO

The system can be applied to a variety of materials, range from metal, reinforced glass, grc and plastics. The buiild ding system can be coded and fabricated by robot automatically, both time and labor saving.

03 /// ASSSEM MBLY Y SEQ QUEN NCEE

diff ffe erent material application

testing in differ ff rent aggregation

05 // DEPLOYMENT SCENARIO

Interior application

landscape application

STUDENT //

Yiannis Chrysochou

" !

VWUHQJWK ÀH[LELOLW\

04 // DEPLOYMENT SCENARIO " !

STUDENT //

Tianlin Wang

! # "

! $ & ! $ " $' ! # # '

%! $ $ ! $ " $

' #$ $ #

"" " $ $ "

%! $ $ ! $ " $

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$" # " $ & " )

$ $' ! $# " # # #

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$ $' # JUHJDWLRQ LQ GLႇHUHQW VWHSV $ ' $ ( # "

"" " $" # " $ $ " $ ( #

$ $ $ " "" " $

STUDENT //

He Xinglu

STUDENT //

Tanishk Saha

DUAL SYSTEM COMPONENT In black, these elements interlock to form the structural lattice. In colour, the shells interweave to form the ornamental facade. These two systems create a flexible mesh, capable of creating planar or undulating structures.

DIVERSITY IN SCALABILITY The component allows for flexibility and applicability across various scales and scenarios. Eg. Textiles, panelling, canopies, pavilions

STUDENT //

Joy Georgi

01 // COMPONENT CONCEPT

DYNAMIC

JOY GEORGI

MOVEMENT

MACRO SCALE

MICRO SCALE Image ref.: Ismael M.H, Shutterstock, Igor Ovsyannykov and David Pritchard

02 // COMPONENT DEVELOPMENT

COMPONENT A

COMPONENT B

COMPONENT C

GEN 01

GEN 01

GEN 01

GEN 02

GEN 02

GEN 02

GEN 03

GEN 03

GEN 03

GEN 04

GEN 04

GEN 04

GEN 05

GEN 05

GEN 05

GEN 06

GEN 06

03 // CATALOGUE OF AGGREGATION

BASE COMPONANT C AGGREGATION 01

BASE COMPONANT C AGGREGATION 02

BASE COMPONANT C AGGREGATION 03

BASE COMPONANT B AGGREGATION 01

04 // DEPLOYMENT SCENARIO

HUMAN SCALE APPLICATION

STUDENT //

Minzhe Song

01 // COMPONENT CONCEPT Feather Animation

02 // TAXONOMY OF AGGREGATIONS

component 10

aggregation 01

component 20

aggregation 02

component 30

aggregation 03

aggregation 04 plus component 40

aggregation 04

component 50

aggregation 05

aggregation 05 plus

02 // FURTHER AGGREGATIONS aggregation 05 plus

catalog 1

catalog 2

03// ASSEMBLY SEQUENCE

04 // DEPLOYMENT SCENARIO

STUDENT //

Andrea Guiatti

01 // COMPONENT CONCEPT

FROM THE

ref.

ROOTS

02 // TAXONOMY OF AGGREGATIONS

01_element

02_element’s combination

02_element’s combination

03_component A

04_component’s A combination

02_element’s combination

03_component A

04_component’s A combination

02_element’s combination

06_elements aggregation

02_element’s combination

03_component B

05_components A and B combination

_explosion

_left view

_top view

_overall view

_prospective view

03 // ASSEMBLY SEQUENCE

_vertical aggregation

_horizontal aggregation

04 // DEPLOYMENT SCENARIO

STUDENT //

Yilin Cao

STUDENT //

Siwei Qin

01 // COMPONENT CONCEPT

REFERENCE　

02 // TAXONOMY OF AGGREGATIONS

ORIGINAL COMPONENT

SINGLE COMPONENT

DOUBLE COMPONENT

THREEFOLD COMPONENT

COMBINATION

03 // EXAMPLEAGGREGATIONS THREE-SIDE VIEW

COMBINATION 1

PERSPECTIVE VIEW

COMBINATION 2

COMBINATION 3

04 // DEPLOYMENT SCENARIO

STUDENT //

Joana Margarida Calado Correia

01 // COMPONENT CONCEPT IT’S INFINITE

IT’S CONNECTED

IT’S STANDARD

IT’S SCALABLE

REF. BEN BUTLER

PROJECT I KEEP ADDING The position of one piece leads to the positioning of the next. The pieces create an interconnected system I chain. The system holds tension.

02 // TAXONOMY OF AGGREGATIONS MODULES I RIGIDITY I POROSITY

A.1

KEEP ADDING I CREATING SPACE

PROGRESSION I KEEP THE SYMMETRY

PROGRESSION I KEEP THE VOLUME

PROGRESSION I KEEP THE LINEARITY

A.2

A.3

B.1

B.2

B.3

03 // ASSEMBLY SEQUENCE PROGRESSION I CREATING AN ORGANIC SYSTEM RIGID PREDICTABLE DEFINED

HUMAN SCALE ORGANIC DYNAMIC INFINITE

∞

URBAN SCALE I DESIGN WITH THE CONTEXT

04 // DEPLOYMENT SCENARIO URBAN SCALE I DIFFERENT LEVELS OF POROSITY

URBAN SCALE I ORGANIC OCCUPATION

STUDENT //

Hu Shuobin

ŚŝŶĞƐĞ ƚƌĂĚŝƟŽŶĂů ůĂŶƚĞƌŶ ŝƐ ĨĂŵŽƵƐ Ăůů ŽǀĞƌ ƚŚĞ ǁŽƌůĚ͘ ǀĞƌLJƟŵĞ ǁĂůŬŝŶŐ ƚŚƌŽƵŐŚ ŚŝŶĂ ƚŽǁŶ ĚƵƌŝŶŐ ŶĂƟǀĞ ĨĞƐƟǀĂů͕ / Ăŵ ƐƵƌƌŽƵŶĚĞĚ ďLJ ůĂŶƚĞƌŶƐ ƐǁŝŶŐŝŶŐ ǁŝƚŚ ƚŚĞ ǁŝŶĚ͘ tĞ ƵƐĞ ƚŚŽƵ ƐĂŶĚƐ ŽĨ ůŝŶĞƐ ƚŽ ĐŽŶŶĞĐƚ ůĂŶƚĞƌŶƐ ƐŽ ƚŚĂƚ ŝƚ ŝƐ ĨĂŶƚĂƐƟĐ ƚŽ ǁĂůŬ ƵŶĚĞƌ ƚŚĞŵ ĂŶĚ ůŽŽŬ ƵƉ͕ ǁŚŝĐŚ ŝƐ ũƵƐƚ ůŝŬĞ ůLJŝŶŐ ƵŶĚĞƌ ƚŚĞ ƐƚĂƌƐ͘ DLJ ĐŽŶĐĞƉƚ ĐĂŵĞ ĨƌŽŵ ƚŚŝƐ ĂŶĚ ĂƌĐŚŝĞǀĞĚ ƐŽŵĞ ĚĞǀĞůŽƉŵĞŶƚ

dƌĂĚŝƟŽŶĂů >ĂŶƚĞƌŶ

^ŚŝŶŝŶŐ ^ƉĂĐĞ

dŽƌĐŚ ǁŝƚŚ >ŝŶĞƐ

ŽŶŐůŽŵĞƌĂƟŽŶ

d d yKEKDz yK KEKDzz K K K&& ''Z ' d/KE^ '' 'Z ' d/KE E^ ŽŵƉŽŶĞŶƚ ĞǀĞůŽƉŵĞŶƚ

^ŝŵƉůĞ ^ŚĞůů

ƵƉůŝĐĂƚĞ ^ŚĞůůƐ ƌŝĚŐĞ

ZŽƚĂƚĞ ǁŝƚŚ džͲĂdžŝƐ ĂŶĚ ĐŽŶŶĞĐƚ ŝŶƚĞƌŝŽƌ

DŝƌƌŽƌ ƚƌĂŶƐĨŽƌŵĂ ƟŽŶ ǁŝƚŚ džͲĂdžŝƐ

ƚŚĞ ŵŽĚĞů ŝŶ ϯϬ ĚĞŐƌĞĞ

ŽŶŶĞĐƚ ƚǁŽ ĐŽŵƉŽ ŶĞŶƚƐ ŝŶ ĚŝīĞƌĞŶƚ ƐĐĂůĞ

ŐŐƌĞŐĂƟŽŶ Ɵ

DŝƌƌŽƌ ƚƌĂŶƐĨŽƌŵĂƟŽŶ ǁŝƚŚ LJͲĂdžŝƐ

ŽŶŶĞĐƚ ĐŽŵƉŽŶĞŶƚƐ ŝŶ Ɖ ĚŝīĞƌĞŶƚ ƐƚĞƉƐ ďƌŝĚŐĞ ŬŝŶĚƐ ŽĨ ƉĂƌƚƐ ŝŶ ŵŽĚĞů

ZŽƚĂƚĞ ŵŝƌƌŽƌ ĂŐĂŝŶ

KŶĞ ŽŵƉŽ ŽŶĞŶƚ

&ƌŽŶƚ

ZŝŐŚƚ

>ĞŌ dŽƉ :ƵƐƚ ůŝŬĞ ŚŽůĚŝŶŐ ůĂŶƚĞƌŶƐ ǁŝƚŚ ůŝŶĞƐ͕ ĐŽŶ ŶĞĐƚ ƚŚĞ ƐŝŵƉůĞ ƐŚĞůů ǁŝƚŚ ďƌŝĚŐĞ ƚŽ ŵĂŬĞ ƚŚĞŵ ŝŶŇƵĞŶĐĞ ĞĂĐŚ ŽƚŚĞƌ ĂŶĚ ƌĞĂĐŚ Ă ĨĂŶƚĂƐƟĐ ŝŶƚĞƌĂĐƟŽŶ ĂĐŬ

KŶĞ ŐŐƌĞŐĂƟŽŶ

ƉƉůŝĐĂĂƟŽŶ ^ĐĂůĞ

,ƵŵĂŶ

&ƌŽŶƚ

h hƌďĂŶ ^ĐĂůĞ

ZŝŐŚƚ

dŽ ŽƉ

>ĞŌ

ŽŶƐƚƌƵĐĐƟŽŶ ^ĐĂůĞ ĂĐŬ

ƌƚ ǁŽƌŬ ŝŶ ^ƋƵĂƌĞͺhƌďĂŶ ^ĐĂůĞ

W>KzD Ed ^ E Z/K

ƌƚ ǁŽƌŬ ŝŶ 'ĂůůĞƌLJͺ,ƵŵĂŶ ^ĐĂůĞ

STUDENT //

Ruth Vella

01 // FLUID

FLUID IS A LIGHTWEIGHT TENSILE STRUCTURE MADE UP OF A SINGLE COMPONENT WITH A CONTINUOS SURFACE THAT HAS BEEN DUPLICATED AND MANIPULATED INTO VARIOUS FORMS

02 // TAXONOMY OF AGGREGATIONS

COMPONENT DEVELOPMENT & AGGREGATION- LINEAR

AGGREGATION - 2D

AGGREGATION - 3D

03 // DEPLOYMENT SCENARIO

URBAN SCALE - LIGHTWEIGHT TENSILE STRUCTURE BETWEEN STABALIZING FRAME

04 // ASSEMBLY SEQUENCE

ASSEMBLY SEQUENCE_01

ASSEMBLY SEQUENCE_02

ASSEMBLY SEQUENCE_03

STUDENT //

Deyan Quan

01 // COMPONENT CONCEPT

'$"!%

'$"! "$

" * ! $"!

# !

02 // TAXONOMY OF AGGREGATIONS

*#

$ & (

$ ! '# & !%& !

)&$' ! "!! &

*#

"!! & "!

$ ! ' $ "!! & "!

* $ '%& $

)&'$ && $!

&& $!

! ( "'$ $ ! ' $ && $!

03 // ASSEMBLY SEQUENCE

Roof Cluster Enclouse Cluster Storage Cluster

Lying Cluster

Structure Cluster

Canopy Cluster Structure Cluster Sitting/Working Cluster

04 // DEPLOYMENT SCENARIO

STUDENT //

Yanran Tu

01 // COMPONENT CONCEPT

ref.

02 // TAXONOMY OF AGGREGATIONS

Component Development - Clustering of single cells

Sequence of Aggretation - from linear to surface

Spatial Aggregation

03 // CATALOGUE OF AGGRETIATIONS

04 // DEPLOYMENT SCENARIO