ARCHITECTURE PPRTFOLIO
ZHENGREN LU SYRACUSE UNIVERSITY B.ARCHI 2016
ZHENGREN LU
211 lafayette Rd ,Room 425,Syracuse, NY13205 Phone:315-350-7448 Email:zlu04@syr.edu
ACADEMIC
EXPERIENCES
AFFILIATION SKILLS
Syracuse University, School of Architecture. Bachelor of Architecture, Visiting Critic Studio Elodie Nourrigat’ Studio from France Smart City-- Urban Farming & Play
2011-2016
Architectural Intern, NAP DESIGN 株式会社,Beijing Participated in project Villa Linhai Resort & Spa Easyhome-China Decorative City (Completed) Cooperated with senior architects. Shenzhen Institute of Building Research: Shengzhen China sponsored designer research, sustainability, and technology.
2013.9-2014.3
Research in Japan, with Prof. Yutaka Sho Dark Tourism: Design Through A Tourist’s Eye in Japan
Summer 2016
Chinese Calligraphers Association
Spring 2000
Architecture Student Organization [ASO] Student Representative
Spring 2012
Fall-2015
Spring 2015
Proficient Autocad, Rhinoceros, V-Ray Render, Adobe Photoshop, Adobe Illustrator, Adobe Indesign, Sketchup, Revit, Microsoft Office, Grasshopper 2D Media & 3D Fabrication Pencil, Ink, Sketching, Laser Cutting, CNC Mill, 3D Printing, ShopTools
LANGUAGES
Chinese -Mandarin Fluent English Fluent Japanese Elementary
COMPETITIONS I am the member of Chinese Calligraphers Association. I have been awarded 3 National gold medals, 2 National silver and 4 National bronze medals on chinese calligraphy, including the first gold medal I won when I was 12 years old. I have been invited for several times during 1998 to 2016 to represent China and participate the International Art Expo. Several pieces of my calligraphy have been d isplayed in many cities such as Seoul, Tokyo, and Sao Paulo.
SELECTED WORKS
01 LOW CARBON CITY
Urban Village in Shenzhen,China
02 MAGIC CUBE
Children Museum Design
03 WESPACE
Green Community Center
04 SMART CITY
Urban Farming & Play
05 MAT BUILDING Yingkou Urbanis as a Mat Building
06 COMPREHENSIVE Physics Building in Syracuse University
07 OTHER WORKS
LOW CARBON CITY
There is a strong alignment betwe en low-car bon and locally appropriate sustainable devel opment strategies for cities, enforced by Chinese government since this century. A lowlivable, and competitive city. Successful sustainable development is an integrated approach to environmental, social and economic impact issues, internally and exter growth. ogies in Pingdi, starting with Hakka. Through historical investigation and personal inter views, we try to understand how Pingdi com munities are related to low carbon life. We discover that there are autonomous low carbon life embedded in their daily life, yet to be updated and systemized. Culture has to sustainable. There are very dense Hakka communities in Pingdi. During past 5 years, 2 Hakka family houses are demolished and most of them are abandoned. They shall be preserved and upgraded to a new life yet with tradition. Pingdi have witnessed 3 generations to trans form form guest to host, Hakka families since 150 years ago, factory workers since 1980’s and new highly education immigrants in this centu ry. There are independent low carbon lifestyle embedded in Pingdi. However, in the near future, with good education and community life on low carbon culture, Pingdi will become a model low carbon city for china, even for the world.
1
2008
1 RESEARCH 2 PLANNING PHASES 3 WOM’S EYE VIEW OF URBAN VILLAGE
3
Convenience Store
Barber Shop Spa
bike path loops and intersects the green corridor
Doctor’s Office
Desert Shop
Grocery Store Restaurant
the green corridor continues south to retail stores
Bank Open Food Restaurant
Open Food Market
Dentist
Open Food Market
Coffee Stand
Billiards Hall Convenience Store Hardware Store Public High School Police Station
Film Theater
Art Gallery
Dim Sum Restaurant
Art Gallery
Public Library
Bar
the unique enclosed walls allows for public/private space
Ice-Cream Stand Open Food Restaurant Bubble Tea Shop Food Stand
Electronic Store
Desert Shop
Elementary School
hakka village is preserved because of its cultural significance
Open Food Market
Food Stand
the urban village falls under separate jurisdiction
Bank
LO
W
food/drink community convenience
Village Commitee Center
UR
Nail Salon Barber Shop
BA
N
CA
Convenience Store
VI
Clothing Store
LL
RB
ON
AG
E
CI
Book Club
Convenience Store
TY
Spa
education retail leisure
Shoe Store
Public Library
Beauty Parlor
88
89
N
1 N
N
EW
S
E
S
Enclosed
Enclosed
Parallel
Parallel
Scattered
Scattered
Hakka Family House Typology in Pingdi
2 Gated Community Gated Community
Farmland
Urban Village
Urban Village
Factory Dorm
Factory Dorm
1
Xinqiao Shiju
Huilong Shiju
Year: Qing Dynasty Scale: Small 2 Area: 1899m Location: Longteng Road, Pingdi St.
Year: 1848 Scale: Large Area: 1880m2 Location: Jinsha Commu nity, Kengzi St.
U
H
-
H
U
U
Datian Shiju
Hetian Shiju
Tiankeng Shiju
Year: 1825 Scale: Large Area: 25000m2 Location: Laowu Village, Longdong Community, Longgang St.
Year: 1794 Scale: Large 2 Area: 6485m Location: Jinsha Community, Kengzi St.
Year: 1824 Scale: Large Area: 4508m2 Location: Liulian Community, Pingding Road,
Ziyang Shiju
Changtian Shiju
Longxi Shiju
Year: 1864 Scale: Small 2 Area: 1780m Location: Laokeng Community, Kengzi St.
Year: 1799 Scale: Small Area: 1640m2 Location: Liulian Communi ty, Pingshan Road,
Year: 1706 Scale: Large Area: 6000m2 Location: Nanyue Community, Longgang Road,
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Shoutian Shiju
Longtian Shiju
Longteng Shiju
Year: Qing Dynasty Scale: Large 2 Area: 4820m Location: Tianjiao Village, Jinsha Commu nity, Kengzi St.
Year: Qing Dynasty Scale: Large 2 Area: 2756m Location: Dalang Village, Nanyue Community, Longgang St.
Year: 1781 Scale: Large 2 Area: 6350m Location: Jinsha Communi ty, Kengzi St.
Yutian Shiju
Xiuling Shiju
Xiangyuan Shiju
Year: 1920 Scale: Small 2 Area: 1190m Location: Tianjiao Village, Shatian Community, Kengzi St.
Year: 1826 Scale: Small 2 Area: 2620m Location: Zhongxin Communi ty, Pingdi Road
Year: Qing Dynasty Scale: Large 2 Area: 6048m Location: Biling Communi ty, Pingshan Road,
U
H
H
Yongying Shiju Year: Qing Dynasty Scale: Small 2 Area: 1064m Location: Wujiaotou Village, Xikeng Commu nity, Henggang Road,
Hakka Family Houses and Urban Evolution in Pingdi
2
Educational Workshops
Kindergarten
Observatory
Pavilion
Park
Gallery
Educational Workshops
Kindergarten
Green roof
Hydroponic
Wind Power
Water reclamation
Wind Power
Sun Power
Sun Power
Market
Sustainable Culture Low-Carbon Energy
2
5 1
5
4
2
3
45 liters 5
1
Initial rain water harvesting tank
2
Suction Tank
3
Collection Tank with sensor
Rain 4
Greywater Treatment
5
per m
2
Processed water storage tank. urban farm irrigation
CH4
Kitchen Waste
Smart Home
Sustainable Transportation
Non-Recyclable
Recyclable
Water System Recycling Life Low-Carbon Transportation Smart Community
2
降低物价 Growing Season:
Farmers
节能减排
Factory Workers
Stores
Food Safety
Harvest Season:
Farmers
Factory Workers
Social Bonding
Stores
促进本地经济
Food Security
Educational Workshops
Social Bonding
Healthy Diet
提供就业
Lowered Prices Energy Savings
Healthier Diet
Educational Workshops
Job Creation
Local Economy
Urban Farming
2 W½ à »®Ä¦
3
Every entrance on the 2nd floor corridor is framed. This marker references the nearby structures and topography. The scale allows the entrances to be apparent.
MAGIC CUBE SOLID & VOID
2
FUN + GAMES
CAFE AUDITORIUM ADMINISTRATIVE OFFICE
CLASSROOM WORK SHOP
DISPLAY SPACE PLAY SPACE
CIRCULATION PLAY SPACE DISPLAY SPACE
PLAY SPACE LOBBY
1
1 ICON 2 PROGRAME 3 URBAN DIAGRAM 4 ANALYSIS 5 SECTION 6 SERIAL SECTION 7 PLAN 8 ISOMETRIC
This project is about developing a relationship between solid and void. The building has two parts. The bottom is play and display space. It looks like a solid cube rotating at different levels, but the form – housing all the exhibition program and play space – is also voided out on the interior by a series of enclosed spheres. The interior of these void spheres space is made up of display space, much like a traditional museum. The solid spheres on the top of the building are used as the activities and office spaces, like auditorium, classrooms and offices. It is more isolated from the bottom to provide a different environment for studying, working and resting. But it is not a random stacking on the top, but rather, the composition is developed as an extension of the void spheres within the bottom cube form.
Outside of the upper sphere, is the roof garden for rest and see views of downtown Los Angeles. The main circulation in the project is a ramp which starts from the outside of the lowest most sphere and then continues on to the inside of the sphere voids directly above. The ramp spirals around the spheres and visitors can go out from the spheres in each level. The project takes advantage of the local mild climate to create a huge outdoor space on the flat site. The ground design is organized through a grid system. It is the same grid pattern as the facade of the bottom cube form of the building. The color of the ground is also tied to the building façade, radiating the same color out from the building into the urban context. While the building rotates on the different level in plan, so the ground grid is rotates in section to create park zones of different heights.
3 Chinatown
Bunker Hill
Little Tokyo
Downtown LA
Art district Stretching the park zone
Relation of urban district
Park as attractor or activity
Park as structural centre and connector
LA River
4 3/8”
3”
3/4”
3/8”
9” 3/4”
10-1/4”
3/8”
9” 3/4”
Stacking
Swedish Cope
Interlock
Dovetail Joint
10-1/4”
17mm
60 mm
8.571mm
18m
m
18m
m
18m
Section
8.571mm
60 mm
Plan
17mm
60 mm
18mm
m
Plastic 18mm
Rotation
18
mm
Axis Rotation-Axis System
Elevation
Axis Section-Perspective
Cross-Section
Ball
Positive
1.2
”
Jacks
Negative
”
1.5
Jacks stack, overlap and cross togeter to get the positive and negative space.
5
5
7 CAFE
CAFE AUDITORIUM
VIEW POINT
Fifth Level
DO
W
N
UP
WOOD SHOP CLASSROOM
RESTROOM
PLAY SPACE RESTROOM
Fourth Level MUSEUM SHOP
TICKETING
PLAY SPACE PLAY SPACE
TICKETING
PLAY SPACE RESTROOM
Third Level
PLAY SPACE
RESTROOM
Second Level
RESTROOM
PLAY SPACE
MUSEUM SHOP
N
TICKETING
1/16”=1’-0” PLAY SPACE
TICKETING
Solid & Void_Ground FloorPlan Zhengren Lu
First Level
6
8
9
10
Zhenjiang City is a national historical and cultural city , the city of Nanjing urban core circle, an important port of the Yangtze River Delta, industrial and tourist city, regional center city . Beigu Bay is located in the south bank of Zhenjiang Jingkou District, west side near the Beigu Hill park. bay is part of the Zhenjiang Riverside landscape, and own the unique landscape advantages and geo-cultural heritage.
1
The hall part derivative, with the community's public space to meet the needs of the community. Building inside and outside the space to experience a certain contrast, the purpose of the exploration and development of the green building. The venue of the surrounding landscape, landscape landscape concepts into architectural form. Reasonable partition function, the independence of each part of the space and privacy is guaranteed. Centralized plane link each functional partition, the separate Greening design makes the enjoyment of environment becomes independent. By separate the space, integrate the nature into the inter-space. The architectural theme penetrate into the environment, weakening the link between the buildings, to better enjoy the nature, in the meantime, the privacy of space also been assured.
1 SIT DIAGRAM 2 AERIAL VIEW DIAGRAM 3 PLAN 4 SECTIONAL DIAGRAM 5 RENDERING 6 MOMENT DIAGRAM
GREEN COMMUNITY CENTER
EXHIBITION HALL MEETING TEAHOUSE SPA GYM
Des i gnEl ement s Ex hi bi t i on
FI t nes s Cent er
Func t i onal Cl ub
Vi ewofL ands c ape
Tr af f i cs t r eaml i ne
di s t i ngui s hc l ear l yupperandl owers pac e
BL OCKANAL YSI S
mak i ngt heboundar yofupper andl owers pac evague
PERSPECTI VECROSSSECTI ONAL
STREETSI DEEL EVATI ONS
bi r d' s ey evi ewofni ghts c ens e
URBAN FARMING & PLAY The project create a urban farming and a play space which make the city more “Smart� and “Sustainable". The site is located between the city and rural area i n Montpellier city i n France. therefore, the urban farming and p lay space can provide a space to connect the citizens and farmers. The project including play s pace, vertical f arming, research building, and m arkets. T he v ertical farming provide the healthy vegetable and organic food for citizen and farmers can bring their foods to s ale in t he markets.
They a re s eparate, but t hey can provide more c hoices for people. During t he w eekend, it c an b e a good place for a family to visit. There are foods, and children can play around with parents. The main building is the vertical farming tower. It is for growing organic food. The other two towers a re t he r esearch center and p lay tower. O n the top of t he play t ower, there are some r estaurants to cook many healthy food for zone o n the ground, like movie place, garden place, forest place, and so on.
1
Farms Market
ENTRANCE PATH OF TRAVEL PAYMENT
1 ENTRANCE DIAGRAM 2 PROGRAM DIAGRAM 3 PLAN 4 EXPLODED AXON 5 RENDERINGS 6 SECTION
1
Super market
PROGRAM
2
Solid and Void
Ground Program
Fishpond & Research Office
Swimming Pool
Farm Market
Roof Garden
Warehouse
Underground Parking Entrance Farm Market
Parking Tennis/Badminton Basketball
Rock Climbing & Restaurant
Roof Garden
Vertical Farming Research Farming Building
Play & Vertical Farming
Private Area
Underground Parking Entrance Roof Garden
Parking
Semi-Public Area
Public Area Sport Area
Play Ground
Parking
Badminton
Basketball
Fountain
Pathguide pattern
Little Farm
Small Forest
Floor Light
Rest Bench
Garden
Hedgerow
Plaza
SITE P L A N
3
Ground Floor
N First Floor
Fourth Floor
Second Floor
Roof Garden
Third Floor
Roof Plan
4 Wind Turbines Rainwater Collection System Solar Panel
Green Roof
Office Edible Wall Plant & Cultivate Restroom Cafe
Display Planting Production Area
Production Area
sea food
research office
farm foods
Play & Rest Area Tansport Junction
5
Circulation Area
organic
storage
organic
5
SECTION
6
YINGKOU URBANIS
AS A MAT BUILDING
1 FIELD CONDITION DIAGRAM 2 ANALYSIS 3 SECTION 4 MOMENT 5 INTERIOR RELATIONSHIP 6 BOUNDARY & ATTRACTION 7 OBLIQUE PLAN
The project proposes a mat building to create an interiorized community in Yingkou city. The building includes entire neighborhood that, while addressing the problems of increasing air pollution, ghost town-ness of this area of the city, and population growth within Chinese cities in general, also acts as a new monument in the city. The mat building intends to renew the identity of Yingkou through interiorized living and exterior. The big size activates the regime of complexity; thus the project has the potential to redeploy the intelligence of the city itself, this time through logics of interiority rather than exteriority. However, as it is too big to see the inside program, the envelope is no longer to reveal the extent of the internal event. For the people who live in the mat building, the building bears similarity to their present architecture environment. However, for the people outside the mat building looks like an urban
1
Located at a historically loaded site and being an extension of a historical building on the Syracuse University campus, the project attempts to take in elements of the context and translate it into a modern version. Buildings around the site has publicly accessible spaces that act as pathways and spaces of congregation. Surrounding quads provide outdoor public spaces for pedestrians. The abundance of pedestrian through the site. The site is located on the south side of Slocum Hall. The site is being framed by buildings on the north and south side and College Place on the East side.
Most of the air used for cooling is cooled using the earth to air heat exchanger that makes use of the cool ground temperature in Syracuse. The air used for heating is heated using the steam that is supplied throughout the Syracuse University campus. The glass facade allow pedestrians on campus to look into the gallery and library space of the building. The louvers are translucent which allow people to see through them at night when the lights from within the building passes through.
The long and slender footprint of the extension makes way for the high foot The air intake and the air exhaust ducts merges together at an energy recovery unit that allows the air intaked to recover the heat from the air exhausted out of the building. This will reduce the amount of energy consumed to heat up the building during the winter. The air return ducts are placed above the through the HVAC system several times. The returned air at the basement will be exhausted out of the building because of the dust and debris in the woodshop located in the basement.
1 RESEARCH 2 SITE ANALYSIS 3 SECTION 4 SITE AXONOMETRIC 5 PLAN 6 HVAC 7 ELEVATION 8 WALL SECTION 9 RENDERING
Physics Building In Syracuse University 2
1
Site Aerial View
Building Elevation
Elevation Detail
Steel Frame
Building
ASSEMBLLY SYSTEM
TYPICAL WALL/WINDOW ASSEMBLY
Figure Ground
Context
Plan
Brick Panel
Section
Glass Wall Facade
Sketch Elevation
Sketch Underground Section
Terracotta RainScreen
Site Section
Typ. Panel Intersection
Internal Strut
WALL SECTION
AXONOMETRIC WALL SECTION
1
2
3
4
8
5 7
9 6
1 Covering Plate 2 Aluminum Section 3 4 Corrugated Sheet Cladding 5 Brick Panel in Aluminium Frame 6 Nylon Spacer 7 Reinforced Conctete Prefab Wall
Construction-Building Site
Construction-Underground Space
Building Site Near Completion
Corner Detail
Glass Connection Detail
8
Steel Section
9
Steel Angle
Cladding Panels Detail Sect
ion
Wood Wall
Generator/ Conc. P ad
2 Metal Loading Ramp
Airway
Airway
Concrete Loading Dock
7
11
16 4
2
13
1
EXTRUSION
ADD
SETBACK
CORE UNIT
PUNTCTURE
SUBTRACTION
5
9
15
12
6 3 UNDERGROUND PARKING
Site 10
WALK CONC.
8
17 14
18
1
2
H. B. CROUSE HALL
8
7
SCHINE STUDENT CENTER
13
OLLEY BUILDING
WHITE HALL
CROUSE COLLEGE
BOWNE HALL
14
BIO RESEARCH LAB
MAXWELL HALL
SHAFFER
MAC NAUGHTON HALL
15
L MAN HALL LY
HENDRICKS CHAPEL
12
GOLDSTEIN
17
16
SLOCUM HALL
EGGERS HALL
11
10
9
6
5
4
3
LINK HALL
18
SIMS HALL
FLANAGAN GYM
Syracuse University | Physic Building
NOLLI MAP Buildings around the si e has publicly accessible spa t as pathways and spaces of
QUAD SPACES s.
SITE
PEDESTRIAN PATHWAY The abundan
SITE PLAN
N
the site.
3
4
SITE AXONOMETRIC Syracuse University | Physic Building
5 1
2
3
4
5
6
7
8
9
10
11
12
A
B
Penthouse
1
2
3
4
5
6
7
8
9
10
11
12
13
A
B
3 rd Level
1
2
3
4
5
6
7
8
9
10
11
12
13
A
B
2nd Level
1
2
3
4
5
6
7
8
9
10
11
12
13
A
B
1st Level
1
2
3
4
5
6
7
8
9
10
11
12
A
B
Basement
8
1 Covering Plate 2 Aluminum Section 3 4 Corrugated Sheet Cladding 5 Brick Panel in Aluminium Frame 6 Nylon Spacer 7 Reinforced Conctete Prefab Wall 8
Steel Section
9
Steel Angle
9
OTHER WORKS
1 CHINESE CALLIGRAPHY 2 KIOSK DESIGN COMPETITION
Chinese Calligraphy
Inventory
the
ARMADILLO
Hard Maple Required Size: 2”x 4”x L, total 12.26 ft³ Material Dimention: 2”x4”x10’ (Thickness x wideth x length) Required Quantity: 12.26/2/12x4/12x10 = 6 Pieces Waste: 1 - 12.26 ft³/ 6 x 2”/12 x 4”/12 x 10 = 3% Price: $19.8/piece Total cost: $19.8 x 6 = $118.8
Plywood Sheet Required Size: total 372.4 ft² Material Dimention: 11/32"x4'x8' (Thickness x wideth x length) Required Quantity: 372.4 / 4x8 = 12 Pieces Waste: 1 - 372.4 ft² / 12 x 4’ x8’ = 3% Price: $16.93/piece Total cost: $16.93 x 12 = $203.16
Hard Maple Columns Required Size: total 3” x 3” x 238’ Material Dimention: 3” x 3” x 24“ (Thickness x wideth x length) Required Quantity: 238’ / 24”/2 = 119 Pieces Waste: 0% Price: $19.95/piece Total cost: $19.95 x 119 = $2374.05
Radiata Pine Required Size: total 0.665 ft³ Material Dimention: 1"x4"x8' (Thickness x wideth x length) Required Quantity: 0.665’/ 4”/12 x8‘= 2 Pieces Waste: 1- 0.665ft³ / 2 x1”/12 x 4”/12 x 8’ = 0.3% Price: $17.98/piece Total cost: $17.98 x 2= $35.96
mirrored cladding protects air vents raised holes for water-tight air flow insulation layer cross bracing
ventilation fan
Ventilation
&
Cooling
Aluminum Sheet Required Size: total 547 ft² Material Dimention: 0.019"x36"x36" (Thickness x wideth x length) Required Quantity: 547 ft²/ (36”/12 x 36”/12)= 61Pieces Waste: 1- 547 ft²/ 61 x 36”/12 x 36”/12 = 1% Price: $21.98/piece Total cost: $21.98 x 61= $1340.78
service window
Aluminum Rod Required Size: 1/4” x 1/4“ x 883.8’ Material Dimention: 1/4” x 1/4” x 48” (Thickness x wideth x length) Required Quantity: 883.8’ / 48”/12 = 221 Pieces Waste: 1 - 883.8’ / 221 x 48”/12 = 0.1% Price: $5.61/Rod Total cost: $5.61 x 221 = $1239.81
Weldable Steel Required Size: 1/8” x 1/8“ x 883.8’ Material Dimention: 1/8” x 1/8” x 48” (Thickness x wideth x length) Required Quantity: 883.8’ / 48”/12 = 221 Pieces Waste: 1 - 883.8’ / 221 x 48”/12 = 0.1% Price: $2.73/Rod Total cost: $2.73 x 221 = $603.33
Power
& Heat
Aurora 6500 Watt Portable Diesel Generator
2x Dr. Infrared Portable Space Heater
5000 Watt continuous output 3.3 Gal fuel tank (10-12 hour runtime)
Steel Brackets Material Dimention: 1.375"x1.5"x2"(width x length x height) Required Quantity: 249 Pieces Waste: 0% Price: $0.58/Piece Total cost: $0.58 x 249 = $144.42
Acrylic mirror Required Size: total 547 ft² Material Dimention: 0.118"x36"x48"(width x length x height) sell by 5 sheets case Required Quantity: 9 cases plus 1 sheet Waste: 0% Price: $83.99/Sheet, $377.96/Case Total cost: $377.96 x 9 + $83.99 = $3485.63
White Glass
30 Gal Water Tank
Water
Required Size: total 64 ft² Material Dimention: 0.93"x36"x48" (Thickness x wideth x length) Required Quantity: 64 ft² / 36”/12 x 48”/12 = 6 Pieces Waste: 1 - 64 ft² / 6 x 36”/12 x 48”/12 = 13% Price: $34.98/Piece Total cost: $34.98 x 6= $209.88 20 Gal Water Heater
Concrete Mix Required Size: 20.18 ft³ Material Dimention: one 60lb bag for 0.5 ft³ Required Quantity: 20.18 ft³ / 0.5 ft³ = 41 Bags Waste: 1 - 20.18 ft³ / 41 x 0.5 ft³ = 2% Price: $2.93/Bag Total cost: $2.93 x 41 = $120.13
Floorboard
16x LuxPAR PAR30s 11 Watt, 2700K 36° beam angle
Lighting
Required Size: 100 ft² Material Dimention: 6" x 36" (width x length) Required Quantity: 100 ft² / 6”/12 x 36”/12 = 67 Pieces Waste: 1 - 100 ft² / 67 x 6”/12 x 36”/12 = 0.5% Price: $1.79/Piece Total cost: $1.79 x 67 = $119.93
Foam Insulation Required Size: 56 ft³ Material Dimention: 2"x 2' x 8'(thickness x width x length) Required Quantity: 56 ft³ / 2”/12 x 2’ x 8’ = 24 Pieces Waste: 1 - 56 ft³ / 24 x 2”/12 x 2’ x 8’ = 12.5% Price: $19.65/Piece Total cost: $19.65 x 24 = $471.6 Total Cost: $10,467.48
ARMADILLO
THE
Spring 2015 Instructor: A. Theodoridis TAs: A. Principe & R. Sova
Wesley Ratliff Shi Shi Kunzi Yiyang
20’2”
6’
12’9” 13’8” 3’2”
3’9”
9”
AERIAL SITE
SCALE 1:50
1
2
5
10
1
2
5
LONGITUDINAL ELEVATION
10
1
2
5
10
TRANSVERSE ELEVATION
SCALE 1:50
SCALE 1:50
13’6” 10’9” 2’7”
7’11”
LONGITUDINAL SECTION 1
2
5
10
2’10”
PLAN
TRANSVERSE SECTION
SCALE 1:50
1
2
5
10
SCALE 1:50
SCALE 1:50
1
2
5
10
extrerior cladding waterproof layer air gap wood frame structure acrylic mirrored sheet cladding
thermal proofing interior finish wood frame structure wood beam
cladding support ribs wood lintel windows
ENVELOPE DETAIL SCALE 1:10
acrylic mirrored cladding steel cladding backing hangs mirror off off ribs folded/welded aluminum flashing
rib layer 2 bonded to layer 1 - cladding hung from steel rib layer 1 bonded to aluminum flashing and layer 2 2”x4” primary wood structural frame welded aluminum flashing aluminum strap flashing support flashing support block 2”x4” secondary wood structural frame steel bracket
hard maple 2”x4” ribs flashing support hard maple 2”x4” cross bracing
2”x4” wood beam
steel brackets
2” rigid foam insulation plywood interior finish plywood lintel aluminum strap flashing support foam insulation window frame - aluminum flashing, wood sill fixed glass
EXPLODED ENVELOPE DETAIL SCALE 1:10
plywood interior finish
exterior envelope
hard maple column 2”x4” support beams plywood lintel steel brackets
wood structural supports
fixed ribbon window plywood window sill building envelope system
closed door - acts as service area service window preparation/advertising area
service window (operable) pine floorboards central service space
service area
bottom hinged door w/steps
open door - acts as entry stair
SECTION DETAIL SCALE 1:50
concrete footing plywood screen hides footing
EXPLODED AXONOMETRIC DETAIL SCALE 1:50
Thank you for consideration
ZHENGREN LU
211 lafayette Rd ,Room 425,Syracuse, NY13205 Phone:315-350-7448 Email:zlu04@syr.edu