Tianyi Han WORK SAMPLE 2018 Washington University in St. Louis Master of Architecture
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Tianyi Han
Tianyi Han
7 Maryland Plz, Apt 808 St. Louis, MO 63108 (314) 309-6208 han.tianyi@wustl.edu
EXPERIENCE
EDUCATION
Creative Exchange Lab, St. Louis, US | Intern Designer MAY 2018 - PRESENT
Worked primarily in the schematic design phase of several small scale projects, including housing and scenic design. Working in AutoCAD, Rhinoceros and Adobe Suite.
Atelier FCJZ, Beijing, China | Summer Intern MAY 2016 - AUG 2016
Assisted Pritzker Prize Jury Yung Ho Chang with conceptual sketches and renderings. Leading parametric design and modeling of several projects. Designing across all phases from conceptual design through construction documentation.
Washington University in St. Louis
Master of Architecture AUG 2014 - DEC 2017
3.5-year program
South China University of Technology
Bachelor of Landscape Architecture SEPT 2008 - JUL 2013
5-year program
Vector Architects, Beijing, China | Summer Intern MAY 2015 - AUG 2015
Created presentational renderings and drawings of projects in central Beijing. Had the opportunity to present to client and report feedback to design principle.
ACADEMIC Study Abroad, Berlin, Germany FEB 2017 - APR 2017
Full semester Architecture studio in Berlin, studying European architectural theory and history.
SKILLS Autodesk Revit AutoCAD Grasshopper Rhinoceros Sketch-Up Photoshop Illustrator InDesign V-Ray Maxwell Lumion
Teaching Assistant, Washington University | Structure II FEB 2017 - APR 2017
Grading tests, quizzes and homeworks. Holding office hours. Conducting work sessions with professor.
LANGUAGES
Digital Fabrication Lab Monitor, Washington University
English Mandarin Spanish
AUG 2015 - DEC 2016
Operating 3-D printer, Laser-cutter, CNC machine, etc.
han.tianyi@wustl.edu
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Structural Frame Aft Section
Boat + Foam
DIGITAL AND ANALOG FABRICATION
Date: Fall 2015 | Location: St. Louis, US | Course: Digital and Analog Fabrication | Instructor: Jamon Diaz | Team Work with Yusheng Fan and 8 others Boat design presents several challenges germane to the processes of architecture, and emphasizes the importance of performance and construct-ability, while taking the challenge to work outside of our normal realm of building design. Rethinking materials is an important aspect of academic architecture. The fields of architecture and construction use expanding foam in the construction of buildings, but the traditional application is not the entire picture.
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Tianyi Han
Longitudinal Frame Members
Structural Frame Midship 2
Structural Frame Midship 1
Skin System Port Side Midship Section
Structural Frame Fore Section
han.tianyi@wustl.edu Structural Frame Midship 3
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Rooftop Hybrid
HIGH-RISE HYBRID BUILDING IN BERLIN
Date: Spring 2017 | Location: Berlin, Germany | Course: Option Studio 512 (Study Abroad) | Instructor: Johanna Meyer | Academic Project | Software: Rhino+Grasshopper, AutoCad, V-Ray, Photoshop | Individual work
The project proposed a high-rise mixed programmed building in Moabit, a high-density residential district in Berlin. The lower levels holds multiple sport facilities, including swimming pool, basketball court, gym, etc, while the upper levels are apartments. The 22m height level is opened up as communal space, which is also a extension of existing roof line of the neighborhood.
Site Plan
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Tianyi Han
han.tianyi@wustl.edu
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New high-rise in residential area with 22m height limit.
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Roof-top Level Tianyi Han
Open “roof-top” level as social space.
Vertical connection of housing and “
“roof-top”
Standard Floor Plan
han.tianyi@wustl.edu
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Tianyi Han
Section han.tianyi@wustl.edu
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Glass Block Arch
SHELL STRUCTURE WITH TRANSLUCENCY
Date: Summer 2016 | Location: Yangcheng Lake, China | Architctural Firm: Atelier FCJZ (YUNG HO CHANG) | Professional Project Role: Scripting, Modeling, Construction document | Software: Rhino+Grasshopper, Auto-CAD, V-ray|
We propose to make the pavilion fit in the nature in the condition of “light” and “transparent”. Standard glass blocks are used to form the double-curvature arch. The shell structure is only 80mm thick-same as the thickness of the glass block. The overall size of the arch is calculated by the structure engineer, then we use Grasshopper to locate every glass block and finished construction documents.
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Tianyi Han
Geometry study with Grasshopper
han.tianyi@wustl.edu
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3.900 3.600
S39 S36
3.200
S32
2.800
S28
2.400
S24
2.000 1.200
S12
S00
0.000
S00
3020
0.400
S04
S04
1510
0.800
S08
S08
3020
S12
S08
1.600
S16
S16
2738
S20
600
S24
S20
600
S32
S28
360 240
S36
1510
7300
S39
S32
S36
S24
S28
S20 S16 S12 S08 S04 S00
3020 1510
3020
3020
1510
S36
S04
2895 S32
600
S28
600
S24
405 195
S00 S04 S08 S12 S16 S20
600
600
3050
S00
450 150
2362 4339 4968
1510
5490
3020
6329
3020
5937
1510
6677 6989 7300
Formwork Plan 3.900 3.600
S39 S36
3.200 2.400
S24
2.000
S20
S20
1.600
S16
S16
1.200
S12
S12
0.800
S08
S08
0.400
S04
S04
S00
0.000
S00
704 157 196
261 314 404
585
174 224
631
631
585
550
S24
460
2.800
S28
460
404 314 261 196 157 704
1760
224 174
7300
2020
S32
550
S32
S28
460
S36
1760
460
4440
Formwork Section
Platform Plan
Cross Rebar Concrete with Rebar
Long Rebar 100*100
100*100
700
400
460
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400*400
400 400
50*100
300
8 160 160 4 900
600
Anchor Detail Section Tianyi Han
100
1660
100
1660
100
410
4440
1500
14
410
Section B-B
Construction Drawing
Construction Photos
han.tianyi@wustl.edu
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Floating Pavilion
RATIONAL FORM FINDING DESIGNING BY MODELING
Date: Fall 2016 | Location: St. Louis, US | Course: Comprehensive Studio | Instructor: Angela Pang, Yoshiyuki Hiraiwa | Academic Project | Software: Rhino+Rhino Vault, V-Ray | Physical Model: Polystyrene, Steel Cables, Pine |Individual work
This studio highlights the collaboration between architects and structural designers in the pursuit of possibilities of form-finding. a floating canopy in the heart of Forest Park, providing a panorama view of the surrounding scenery. The roof is heavy, it ca shadow underneath; the roof is light and vulnerable, it is pulled up only by two thin cables. It looks impossible, but it exists with th of structure.
Conceptual Sketch
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Tianyi Han
I imagine asts dark he beauty
Above: Study Models, Paper, thread Below: Final Model, Polystyrene, steel cable, wood
han.tianyi@wustl.edu
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Tianyi Han
CABLE REBAR
300
CONCRETE
ROOF DETAIL
Final Model
FORCE TRANSFER
300
150
500
CABLE & ANCHOR ARRANGEMENT
CONCRETE THICKNESS VARIATION
VERTICAL FORCE ANALYSIS
HORIZONTAL FORCE ANALYSIS
Structural diagram
han.tianyi@wustl.edu
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SLOPING HOUSE
DUPLEX HOUSING
Date: Spring 2015 | Location: St. Louis, US | Course: Core Studio 318 | Instructor: Catalina Freixas | Individual work
Two families are living here, a Japanese bonsai master with his families and a landscape architect. The sloping roof connects space to the urban context. It extends the ground into the air, creating a large surface for plants. Roof angle and cantilevered ro the sunlight angle, casting shadows for Bonsai and plants that requires different lighting condition.
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Tianyi Han
the natural backstreet oom are determined by
han.tianyi@wustl.edu A-A Section
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OSA
CEL + OSA
N Leonard Avenue Visioning / Kranzberg Art Foundation
Artist Residences / Courtyard view / option A
KAF Artist Residences
SHIPPING CONTAINER HOUSING
N Leonard Avenue Visioning / Kranzberg Art Foundation
Date: June 2018 | Location: St. Louis, US | Architectural Firm: Creative Exchange Lab + Open Source Architecture | Professional Project Role: Modeling, Drawing | Software: Rhinoceros, Auto-CAD, V-ray|
The KAF Artist Residences is part of the Artist-in-Residence program launched by Kranzberg Arts Foundation, which provides affordable artists’ homes and studios in low-income neighborhoods. We re-fabricate shipping containers into modular living units, and organize them into an artists’ community with style and identity.
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Tianyi Han Artist Residences / Delmar Ave & N Leonard Ave view / option A
CEL + OSA
N Leonard Avenue Visioning / Kranzberg Art Foundation
8 5
2
7
3
1 4
6
Floor Plan legend 1. Main Entrance 2. Living room 3. Kitchen 4
4. Dining area
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1
3
5. Bedroom 7
2
5
6. Bathroom 7. Closet 8. Built-in shelving/ storage
8
1 2
CEL + OSA
4
8
N Leonard Avenue Visioning / Kranzberg Art Foundation
4
6
1
Residential Information
3 7
2
5
No. of units: 4 2 shipping containers per unit Typical container size: 8’ wide x 40’ long x 8.5’ high
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Area: 640 s.f. gross per unit
Floor Plan legend 1. Main Entrance 2. Living room 3. Kitchen 4. Dining area
8 5
5. Bedroom
2
7
6. Bathroom 3 6
1 4
7. Closet 8. Built-in shelving/ storage
1 2
4
8
han.tianyi@wustl.edu
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PageOne Bookstore
INTERIOR DESIGN
Date: Summer 2015 | Location: Beijing, China | Firm: Vector Architects | Principal Architect: Gong Dong | Professional Project Role: Modeling, Rendering | Software: SketchUp, V-ray, Photoshop |
This project locates in the center of Beijing. Various materials are being used in different forms and texture, creating an intimate atmosphere for reading.
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Tianyi Han
Wanke Collective Housing
COMMERCIAL HOUSING
Date: Summer 2015 | Location: Beijing, China | Firm: Vector Architects | Principal Architect: Gong Dong | Professional Project Role: Modeling, Rendering | Software: SketchUp, Lumion, Photoshop |
A commercial housing project in Southwest China for Wanke Inc. with the concept of integrate traditional residential space into modern lifestyle, with the respect of historic context.
han.tianyi@wustl.edu
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PHOTOGRAPHY
Saint Louis Abbey Church, 2017, 4x5” View Camera.
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Tianyi Han
Missouri History Museum, 2017, Digital.
han.tianyi@wustl.edu
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