portfolio for UCL MArch Architectural Design by lanxin.yang

[EMBODIED COGNITION] LANXIN YANG'S ARCHITECTURE PORTFOLIO Xi'an Jiaotong- Liverpool University Selected Work 2017-2021 E-mail: Lanxin.Yang17@alumni.xjtlu.edu.cn Application for March Architetural design Application number: 22092006

Space can have emotions Space can be alive Space can have memory Space can be warm

CONTENTS

01 Between ups and downs

Archaeological Museum

02 Back to your belonging

High-rise residential community with warmth

03 Spatiotemporal transformation

Public activity center

04 One's comfort "Judging architecture is based on visible eyes, rotating heads and walking legs. Architecture is not a synchronic phenomenon, but a continuous phenomenon, which is composed of pictures superimposed in time and space like music." - Le Corbusier

Single residence under epidemic situation

05 Other works

In the confrontation and conflict of reality, seek humanistic care, take human experience as the basis of design, and let people perceive emotion, vitality, temperature and memory from architecture.

Between ups and downs Archaeological Museum

History & Present Individual Work, Tutor: Prof. Hung Jen-Chieh, Prof. Songkittipakdee Kulthida 09/2020-12/2020, Location: Germany, Reute Bad Waldsee

The project area is located in the heart of Europe, also is the connection between the two most famous pilgrimage routes in Europe, the Francigena road and the Romea road. The long history and important geographical location make the site have the value of spreading culture. The "up and down" of the landscape and history inspired me to build an archaeological museum throughout the ancient and modern times. Space, light and sound makes people experience the feelings of different periods, so as to create a building with emotion.

Site analysis

Feelings extracted from site elements: dispersion, roughness and undulation.

SITE

Historical timeline People's attitude towards nature has been changing in the long river of history. From awe, application and destruction to the contemporary promotion of harmonious coexistence between man and nature. It is hoped that while visiting the museum, tourists will feel the changes in different periods, reflect and explore the relationship between man and nature in the future.

Archaeological site: Fragmentation

Francigena road

Romea road

Pilgrimage route: Raw and desolate

Hillside: Up and down

Primitive

The Site is located in the middle of the mediaeval most famous pilgrimage routes in Europe, the Francigena road and the Romea road.

Human's attitude towards nature was awe and respect.

Design Methodology

Context

1. Dispersion

2. Roughness

Agricultural People began to understand, master and use natural elements in daily life.

Industrial Re s o u r c e d e v e l o p m e n t has accelerated the pace of life and destroyed the environment.

Modern Modern people realize the importance of ecological environment.

3. Undulation

Two main entrance Circulation of ground floor Circulation of B1 floor Circulation of exhibition hall See through two place

Design strategies

In order to better integrate landform, nature and architecture concept , there are three strategies 4.000

Strategy 1:

The roof pavement and ramp create the undulating feeling of landform

ROOF

1 1.Coffee shop 2.Entrance hall

Ground floor plan

0.000 0m

20m

RAMP

Strategy 2: The landscape is infiltrated into the building 2 1

-3.000 -3.000

1.Office 2.Free exhibition room 3.coffee shop 4.Souvenir shop 5.Recepition hall

COUNRTYARD

-3.700

20m

C' -6.500

WATER

B1 floor plan

Strategy 3:

-7.500

Focuing on people's feeling of walking through four different historical periods.

D -7.000

-6.500

LIGHT C

Four exhibition hall: Attitude to nature Space expression

Modern

Industrial

Agricultural

Primitive

Sustainable

Destrory, Contradiction

Utilize

Awe, Respect

Harmonious, Light

Tension, Depress

Sacred, Warm

Admire, Shake

SPACE

B2 floor plan 0m

20m

EXHIBITION HALL 1 Primitive period

EXHIBITION HALL 2 Agriculture period

Human's attitude towards nature was awe and respect.

People began to understand, master and use natural elements in daily life.

Dark, Wide

Warm, Circuitous

Green grass in the courtyard Light came into the room The road twists and upward

The sound of water drop on the stone A small amount of natural light Thirteen meters high

7.500

4.000

0.000 0.000

-3.500

-6.500 -7.000

SECTION A-A‘

SECTION B-B’

EXHIBITION HALL 3 Industrial period

EXHIBITION HALL 4 Modern period

Resource development has accelerated the pace of life and destroyed the environment.

Modern people realize the importance of ecological environment.

Depress, Noisy

Bright, Hope

Green plants grow to the outside Lots of natural light A path to a brighter future

The rapidity and noise of the waterfall Lack of light inside Depressing low roof

7.000

3.500

0.000

-3.000 -3.500

-6.500

SECTION C-C‘

-7.500

SECTION D-D’

Primitive period

Agriculture period

Industrial period

Modern period

Analysis of space level Different levels are used to simulate the ups and downs of landforms, and the twists and turns of historical development.

Elevation (East)

Courtyard space

Corridor area (West)

Multi-layer space (South)

Sunken space

Corridor area (North)

Multi-layer space (North) 8

V i ew fro m pi l gr i m a g e route 3. Exit: Bright A large number of green plants can be seen at the exit, introducing a large amount of natural light. The whole outdoor channel from dark to light, making tourists seem to shuttle through time and space.

The site is located on t h e s id e of pi l gr i m a g e road, and there are many entrances from this road to the site.

2. Middle corridor: half light and half dark The middle part of the passage, half of which is an open space, introduces certain light, representing the process of historical exploration.

View from hillside From the hillside, peopel can reach one of the main entrance of the museum exhibition hall and other passages to the outside space of the museum.

1. Entrance: dark The entrance passage is narrow, with closed stone walls on both sides, representing the beginning of primitive and gray history.

View to the sunken space

Some corridors surround the sunken square. People can see the green plants of the sunken square when walking on the corridors.

Convent can be seen through the museum Convent can be seen through the middle part of the museum. There are no tall buildings in the middle, which can provide people a good view.

View to the waterfall In addition to the sunken square, the corridor can also see pools and waterfalls.

Back to your belonging High-rise residential community with warmth

Dispersion & Aggregation JDC2021 International Student Competition In Architecture Design Individual Work, Tutor: zhang Shaopeng 09/2021-10/2021

Community, as a community of people living in a certain area, how to provide them with a more convenient way of communication and life mode? The appearance of a large number of empty-nest youth, loneliness and lack of sense of belonging triggered my thinking. With the rapid development of the city, the uniqueness of the city is gradually lost, and different regions are gradually unified and monotonous. Whether the intimacy and memory of traditional residential life can also be brought into the big city.

Background

Context Ming, a unique traveler: I pre traditio city. nal re fer to visit a sidenc e than nd travel in a a mon otonou s

Qiang, opport an employee u : tablish nities, but he the city has bett good so ho him. cial re pes to have er developm lations m e with th ore ways to nt e peop e le arou snd

Harsh climate Cave dwelling

Cold climate Courtyard dwelling

mth ker: I can’t feel the war Hua, A young migrant wor when I come home from m of home in an empty roo find someone to talk to. work, and it’s harder to Xiao Hong, a recent co sc hool, I felt llege grad th ua belong here at the city was strange te: After I left and I didn’t

H o t s u m m er c o l d winter Hui-style

Hot summer warm winter

Ming, a hometo foodie: I rea wn. I re ll ally mis y want to ea s the fo t od coo the food of ked by m my moth y er Xiao Li, a college stud ent: It was the first time hometown. City was I left my good, but I felt that there was no lively neighborhood in my hometown

The appearance of empty-nest youth, the disappearance of the city's memory

Concept City

Lonely

According to the climate, China can be divided into five categories: harsh climate, moderate climate, Ccold climate, hot summer cold winter and hot summer warm winter. Different climate regions also correspond to typical architectural forms.

Hypergraph

Natural harmony

Earth-building

Moderate climate Stilted building

Hyperedge model of community

Sample of young people

Traditional dwelling

⿏⿏⿏器

Isolation from nature

In order to resist the cold wind and hot summer in nature, the layout and architectural design of traditional dwellings are closely related to climate.

The social and economic development is not balanced. Big cities have better employment opportunities and so𪆓𪆓𪆓𪆓 Young people have to leave home to strive cial resources. for better opportunities. This has created a 𪆓𪆓 development 𪆓𪆓 new social group -- empty nest of youth.

Hypergraph --region

Bring the memory and warmth of residential buildings to the city and give the youth a sense of belonging. Hypergraph --hobby

Gather

Concept of "Family"

Single

Vernacular

Gather people who share the same interests and the same geographical memory, to get a new family concept.

批监批批监批监监

Combination of region and hobby

Traditional dwelling

The element

Unit

Evolution

Multiple composite

Natural harmony Stilted building

Integrate flowing water and green plants into the building Add public floor for dancing and reading

Hui-style

Gather Centralized shared space

Courtyard dwelling

Add a public layer for leisure and entertainment.

Earth building

Diversity The diversity of architectural forms.

Cave dwelling

Add niche hobby public layer, music and art.

Stilted building

Stories in Coommunity

Private

Public

Under the living space and between the colum ns, there are many s hared activity spaces

Freely dispersed type Hui-style

The walls and round windows make the space more mysterious and the s o c i a l i n t e ra c t i o n between people more interesting

Channel order type Earth building

The arc living mode increases the scope of social interaction and makes people closer to each other.

Circular aggregation type Courtyard dwelling

Single square space combination to form axisymmetric space form, high and low scattered, conducive to lighting.

Square aggregation type Cave dwelling

Arch door and arch building form, while restoring the s hape of cave dwell i n g, i m prove the lighting problem of traditional cave dwelling.

Polycentric aggregation type

The theme of Stilted house Living space on the upper floor, social sharing area below, with 10cm pool for people to play.

The theme of Hui-style Eac h u nit has its own garden . Small passages lead people to enjoy the changing scenery. Plants, water falls a nd water dot t h e landscape.

The theme of Earth building The architectural space of the tulou themed small units is stacked and enclosed in a circle, with the empty space in the center as a shared space.

The theme of Courtyard dwelling Single square space combination to form axisymmetric space form, high and low scattered, conducive to lighting.

The theme of Cave dwelling Arch door and arch building form, while restoring the shape of cave dwelling, improve the lighting problem of traditio nal cave dwelling. 14

The high-rise community in the city provides the life mode of local-style dwelling house for exotic youth, and brings people a sense of belonging and warmth. With the rapid development of the city, the uniqueness of the city is gradually lost, and different regions are gradually unified and monotonous. Whether the intimacy and memory of traditional residential life can also be brought into the big city.

Spatiotemporal transformation Public activity center

Stillness & Movement Individual Work, Tutor: Prof. Claudia Westermann 02/2021-06/2021, Location: Shanghai, China

The ecological cycle is destroyed under the high density of human habitation. The breathing sense provided by the dynamic and vigorous architecture can efficiently use space to meet the diversity of human needs and create a richer ecological space. The building is no longer static, the moving structure brings the building life, the changing space and function bring the vitality of the community

Concept

Background

Ecological diversity

SHANG HAI CITY ——High Density

Design Methodology

Multi-level A public building will be built in the open space here. What will its function be.

Locus

Open

High density

Insufficient usable area

Maximize space

lack of green

Ecological destruction

Coexistence

Contrast Coral

Inclusive

Ecological diversity

SITE

Breathing building

Open Inclusive

Library!!!

Performance!!!

Multi-level

DEMAND

Park!!!

Available site

Function???

Form Extraction 1. Multi-level

2. Open

3. Inclusive

Plantings on the roof. people can see each other on different levels.

The roof lifting realizes the transition between closed and open

Quiet reading during the day, outdoor movies at night.

The roof lifting can alter access paths

Bask in the sun during the day and watch the night scenery at night.

The roof lifting realizes the change of space function

Take the family and children to relax during the day, and the young people to carnival at night.

SITE

Buildings used only at night Buildings used only at day

Buildings uesd at night

Buildings uesd at day

Changing space provides different functions at different times and meets more needs in limited space.

The lower part of the building has some space for stray animals. As a habitat for fish, coral is changeable and inclusive. As a living place for people, can architecture be like coral?

The glass structure is partially s u b m e r ge d , a l l ow i n g eye contact with fish in the water.

Site analysis DAY 5 am

8a m

300

m 4a

7 am

NIGHT

200

100

Performance Exercise Park Exhibition Eating Bar Group activities Study

1 am

11 a

Road

Green space

Surrounding of site

Buildings

Public space

Surrounding of landmark

12 am 11 pm

1 pm

11 p

p 10

7 pm Group activities

5 pm

6 pm

Student

Study

8p m

Worker

Bar

Eating

The old

Exhibition

Park

Exercise

Performance

1. From site to bridge

2. 3. From site to Landmark From site to road

4. Opposite of the site

5. From road to site

6. From bridge to site 18

Plan

Model

View to the sunken space Through the buildings and corridors, one can walk all the way down to the open sunken plaza, which will connect with the riverbank.

View to the roof square Following the path and s tair s , t h e ro of wil l b e reac h ed, and af ter t h e roof drops in the evening, people can play on the roof square.

Columns position under the transformable roof

View to the sunken building

Administration lobby Function at daytime: Self-study area Coffee Exhibition Yoga meditation

The multi-spherical building b o dy wi l l c rea t e m a ny s m a l l S pa c e s fo r s t ray dogs and cats to stay for a short time.

Administration Lobby Store Function at night: Enjoy night view Bar Small group activities Dance Outdoor square

View from river The community centre can be reached by boat from the river and people playing in the square can be seen from the boat. 19

Day time Site feeling: Sense of history, Peace, Quiet Main target: Elderly and children Purpose: Close to nature and seek inner peace to relieve pressure. Details of connection between roof levels

The column pulls the i n n e r ro o f d ow n , and the inner roof pulls the connecting s tru c ture s hown, which pulls the outer roof down.

Supporting column details The use of telescopic pillars, the use of pump machine, control the rise of the column, so as to promote the central roof rise, in driving the rise of each layer.

Self-study area

Coffee

Exhibition

Sun bathing

Yoga

Section at day 20 time

Night time Site feeling: Flourishing, Lively Main target: Young people Purpose: Release the vitality of life. Details of connection between roof levels

The columns push the inner roof up, and t he in ner roof drives the connecting structure shown in t h e pi c t u re, t h u s raising the outer roof.

Supporting column details The columns shrink, thereby pulling the central roof down and pulling the layers down

Performance

Bar

Small group activities

Skate

Dance

Section at night 21 time

Night Time

Day Time View of the road

Both sides of the road are covered with green plants, which also provide habitat for stray animals

View from river The site can be reached by boat from the river, people playing in the square can be seen from the boat.

Day

inside

The sun shines through the roof and the room is bright and spacious.

Night

inside

The roof falls, and the roof is used as an active square, making the interior more private and active.

One’s comfort Residential unit in covid-19 time Roof construction: Pause & Start Individual Work, Tutor: Prof. Marco Trisciuoglio 03/2020-05/2020

In order to deal with the spread and uncontrollable of the global epidemic in 2020, the world has entered “pause mode”. Looking back at the short history of mankind, what can truly protect and accompany us? Epidemic experts say: “living in houses” can directly and effectively block the spread of the virus, when our range of activities is suddenly reduced, what is the severe challenge for architects? Convenient assembly can make the housing quickly enter the "pause mode", to the outside, there are barriers and connections; When the "pause mode" is removed, it can also quickly integrate into the free community and meet people's demands for a better life.

Metal shiplap panels Supporting battens 50mm×25mm Vapor membrane Sarking sheet 5mm OSB board 12mm Timber beams with insulation in between 40mm×80mm Plaster board 10mm

Wall construction: Metal shiplap panels "L" shaped vertical profile 50mm×60mm insulation-mineral wool 50mm OSB board 12mm insulation-mineral wool 150mm Gypsum plaster 12mm

Floor and Foundation construction: Clading 20mm Battens 25mm×25mm Timber beams with insulation in between 40mm×80mm Sarking sheet 5mm Vapor membrane Plaster board 10mm

Structure

Independent Calculation: Calculation: Calculation:

Timber Timber Timber C24strength strength class C24 C24 strengthclass class 10 10 10 pa Elastic modulus(E): (E): 1.1*10 pa Elastic Elasticmodulus modulus (E):1.1*10 1.1*10 8 pa 8 8 pa Shear modulus (G): 6.9*10 Shear Shearmodulus modulus(G): (G):6.9*10 6.9*10papa Density:550kg/m3 550kg/m3 Timber Density: Density: 550kg/m3 3 3 3 Specificweight: weight:5390N/m 5390N/m Specific Specific weight: 5390N/m C24 strength class

Water system Deflection: Deflection: Deflection:

3 3 Deadload=1KN/m load=1KN/m Dead Dead load=1KN/m3 Load:

Boiler

criticaldeflection: deflection: 2.2m/250= /250= 0.0088m critical critical deflection: 2.2m 2.2m /250=-40.0088m 0.0088m maximum deflection: 6.427 *10-4-4mm maximum maximumdeflection: deflection:6.427 6.427*10 *10 m maximum deflection < critical deflection maximum maximumdeflection deflection<<critical criticaldeflection deflection 4.4m 3.8m 4.4m 4.4m

Elastic modulus (E): 1.1*1010 pa Beam demension: Shear modulus Beam (G): 6.9*108 pa demension: Beam demension: 3 b=0.15m Density: 550kg/m b=0.15m b=0.15m 3 h=0.2m Specific weight:h=0.2m 5390N/m h=0.2m

Load: Load: Load:

equipment

Criticalload: load: Critical Critical load: 1m1m 1m

Connection of beams 3 3 Snowload=1.5 load=1.5 KN/m Snow Snow load=1.5KN/m KN/m3

structureofofthe the house structure structure of thehouse house Structure of unit 3 3 Deadload=1KN/m load=1KN/m Dead Dead load=1KN/m3

0.6m

2.5m 2.5m 2.5m

1.8m

3.5m 3.5m

2.2m3.5m

1.1m 1.1m

1.1m 0.8m

demensionfor for themain main beam demension demension forthe the mainbeam beam Demension for the main beam 3 3 Activityload=2KN/m load=2KN/m Activity Activity load=2KN/m3

Sink

Fromnolian nolian dragram From From noliandragram dragram =35180N N max =35180N NN max max =35180N 2 2 2

2 2 2

maximumstressσ=π stressσ=π EI/L maximum EI/L maximum stressσ=πEI/L 2 2 E=Elasticmodulus modulus==11000000000 11000000000 N/m E=Elastic E=Elastic modulus = 11000000000N/m N/m2 momentofofinertia: inertia: I=I= I=moment moment of inertia: forthe the beamsatatthe the roof: for for thebeams beams at theroof: roof: 0.2m×0.15m×2.46m 0.2m×0.15m×2.46m 0.2m×0.15m×2.46m 3 4 Electricity system 3 3/12=0.0001 4 4 x=bh /12=0.0001 mm IxII=bh 3/12=0.0001 m 4 x=bh 3 4 4 3/12=0.00005625 y=hb IyII=hb /12=0.00005625 mm y=hb /12=0.00005625 m

Waste water& water system Rain water collection

Solar pannel

2 2 2 211000000000×0.0001/2.46 2 2=179.26KN =π x, critical NN =π 11000000000×0.0001/2.46 =179.26KN x, critical N 211000000000×0.0001/2.46 =179.26KN 2 x, critical=π 2 211000000000×0.00005625/2.46 =π N 2=100.836KN y, critical =π 11000000000×0.00005625/2.462=100.836KN NN y, critical y, critical=π 11000000000×0.00005625/2.46 =100.836KN

3 3 3 550×9.81=5390N/m 550×9.81=5390N/m 550×9.81=5390N/m Dead load=1KN/m3

3 2 3 3=750N/m 2 2 0.5m×1.5KN/m 0.5m×1.5KN/m =750N/m 0.5m×1.5KN/m =750N/m 3 23 Snow load=1.5 KN/m 3 3=2625N/m 2 2 1.75m×1.5KN/m 1.75m×1.5KN/m =2625N/m 1.75m×1.5KN/m =2625N/m 3 2 3 3=4500N/m 2 2 3m×1.5KN/m 3m×1.5KN/m 3m×1.5KN/m=4500N/m =4500N/m 3 2 3 3=3450N/m 2 2 2.3m×1.5KN/m 2.3m×1.5KN/m =3450N/m 2.3m×1.5KN/m3 =3450N/m 3 2 2 0.55m×1.5KN/m=825N/m =825N/m 0.55m×1.5KN/m 0.55m×1.5KN/m3=825N/m2

3 2 3 3=750N/m 2 2 0.5m×1KN/m 0.5m×1KN/m =750N/m 3 2 0.5m×1KN/m =750N/m 3 Live load=1KN/m 3 3=1750N/m 2 2 1.75m×1KN/m 1.75m×1KN/m =1750N/m 1.75m×1KN/m 3=1750N/m2 3 3=1250N/m 2 2 1.25m×1KN/m 1.25m×1KN/m =1250N/m 1.25m×1KN/m =1250N/m 3 2 3 3=3000N/m 2 2 3m×1KN/m 3m×1KN/m =3000N/m 3m×1KN/m 3=3000N/m 3 2 2 2 2.3m×1KN/m=2300N/m =2300N/m 2.3m×1KN/m 2.3m×1KN/m33=2300N/m 3 2 0.55m×1KN/m=550N/m =550N/m2 0.55m×1KN/m 0.55m×1KN/m3=550N/m2

3 2 3 3=750N/m 2 2 0.5m×2KN/m 0.5m×2KN/m =750N/m 32 0.5m×2KN/m =750N/m 3 Activity load=2KN/m 3 3=1750N/m 2 2 1.75m×2KN/m 1.75m×2KN/m =1750N/m 1.75m×2KN/m 3=1750N/m2 3 3=2500N/m 2 2 1.25m×2KN/m 1.25m×2KN/m =2500N/m 1.25m×2KN/m =2500N/m 3 2 3 3=3000N/m 2 2 3m×2KN/m 3m×2KN/m =3000N/m 3m×2KN/m 3=3000N/m 3 2 2 2 2.3m×2KN/m=4600N/m =4600N/m 2.3m×2KN/m 2.3m×2KN/m33=4600N/m 3 2 0.55m×2KN/m=1100N/m =1100N/m2 0.55m×2KN/m 0.55m×2KN/m3=1100N/m2

Deformation, M,T and N dragram: Deformation, M,T and dragram: Deformation, Deformation,M,T M,Tand andNN Ndragram: dragram:

Inverter forthe the beamatatthe the floor: for for thebeam beam at thefloor: floor: one of the beam's demension0.2m×0.15m×2.2m one beam's demension0.2m×0.15m×2.2m oneof3ofthe 3 the beam's demension0.2m×0.15m×2.2m 4 4 4 3/12=0.0001 x=bh /12=0.0001 mm IxII=bh 3/12=0.0001 m 4 x=bh 3 3/12=0.00005625 m I =hb Batteries y IyI=hb /12=0.00005625 m4 4 y=hb /12=0.00005625 m 2 2 2 211000000000×0.0001/2.2 2 2=224.08 KN =π x, critical NN =π 11000000000×0.0001/2.2 =224.08 KN x, critical N KN 211000000000×0.0001/2.2 =224.08 2 x, critical=π 2 211000000000×0.00005625/2.2 2 2=126 KN =π y, critical =π 11000000000×0.00005625/2.2 =126 KN NN y, critical =π 11000000000×0.00005625/2.2 =126 KN N y, critical

: critcalloads loadsare arenot notreached. reached. max y, critical x, critical <<NN <<NN : critcal NN max y, critical x, critical N max < N y, critical < N x, critical : critcal loads are not reached. Slenderness: Slenderness: Slenderness: RadiusofofGyration Gyration(R(R)= Iy/A=√√0.00005625/0.03=0.0433m 0.00005625/0.03=0.0433m g)= Radius √√ g g)= Radius of Gyrationsystem (R √IyI/A= y/A= √ 0.00005625/0.03=0.0433m Air condition /R=2.5/0.0433=57 Slendernessλ=L beam g=2.5/0.0433=57 /R Slendernessλ=L beam g Slendernessλ=Lbeam/Rg=2.5/0.0433=57 N a t u r a l ve n t i l a t i o n Strengthdesign: design: Strength Strength design:

Displacement Displacement Displacement Displacement -4 -4 -4m =6.427*10 max VV =6.427*10 m max V max=6.427*10 m -4 =0.6427mm Vmax=6.427*10 m =0.6427mm =0.6427mm =0.6427mm

bendingmovement movement bending bending Bending movementmovement =3952Nm max MM =3952Nm max M =3952Nm max Mmax=3952Nm

ShearStress Stress Shear Shear StressShear Stress =10450N max =10450N TT max =10450N T max

Tmax=10450N

AxialStress Stress Axial Axial Stress Axial Stress =35180N max NN =35180N max N =35180N max

Nmax=35180N

system Air handing unit

z =35180N NN z =35180N N 2 z =35180N 2 A=0.2m×0.15m=0.03m A=0.2m×0.15m=0.03m A=0.2m×0.15m=0.03m2 M =3952Nm x MM x=3952Nm x=3952Nm =0.2/2=0.1m max =0.2/2=0.1m YY max Y 3 4 max=0.2/2=0.1m Air cults 3 3/12=0.0001 m x=bh /12=0.0001 m4 4 IxII=bh max /12=0.0001 m x=bh max σ =N /A+M Y /I =35180/0.03+3952×0.1/0.0001=5124666pa max z z x max x σσ /Ix=35180/0.03+3952×0.1/0.0001=5124666pa z z =N z/A+M xY max =N z/A+M xY max/I x=35180/0.03+3952×0.1/0.0001=5124666pa

Fan conclusion: conclusion: conclusion: the structure meets the requirements of the maxstrain strain and the thestructure structuremeets meetsthe therequirements requirementsofofthe themax max strainand and the max deflection, but the beam is a little bit thin due to the the themax maxdeflection, deflection,but butthe thebeam beamisisa alittle littlebitbitthin thindue duetotothe the slenderness is less than 50. slenderness slendernessisisless lessthan than50. 50.

Other works

Kinetic facade design Group work 09/2020-11/2020 Role: Digital model of each unit, Diagrams, Physical Model

Art museum 04/2018-05/2018

The spherical shelter Group work 10/2019-11/2019 Role: Concept design, Digital model , Physical Model

Physical model of Nanjing Poshe Internship Project 01/2021