david burpee 2014 portfolio
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david burpee statement from the designer: The existence of patterns in everday life may at first seem minimal. However upon further investigation and deep examination, patterns emerge in countless ways and locations. Humans obey a plethora of patterns, weather follows patterns, animals, plants, manufacturing, computation....countless examples within both the natural and built environment exist as a complex series of patterns. Through this lens, I seek to better understand the world around me so that I may more effectively design within it. Often-times relationships between different subjects, or pattern sets are not immediately apparent, however upon overlaying multiple patterns of information new relationships emerge and provide a more complex understanding of a topic. This can be an extraordinarily powerful tool in the realm of architecture, and is something I pursue with great vigor. Furthermore, I am greatly interested in advanced fabrication techniques, parametric design, environmental performance, and design graphics. I sincerely intend to utilize these interests in order to develop a meaningful relationship with a design firm and become a considerable part of a team of designers.
_PATTERNS_
Please feel free to share, photograph, or copy anything of interest that you see. If you would like to return a hard copy of this book to me, please send to the address listed below:
David Burpee University of Southern California Masters of Architecture Address: Email: Phone: Issuu:
612 S. Flower St. #1119 Los Angeles, CA 90017 d_burpee@hotmail.com burpee@usc.edu 509.993.9982 issuu.com/davidburpee
David Burpee // 612 S. Flower St. Apt. #1119 Los Angeles, CA // 509.993.9982 burpee@usc.edu // d_burpee@hotmail.com // www.issuu.com/davidburpee
EDUCATION University of Southern California
Major Academic Achievements
_graduated May 2014 _degree: Masters of Architecture
University of Idaho _academic major : Bachelor of Science in Architecture _academic minor : art _graduated May 2012 _final G.P.A. : 3.7
EXPERIENCE
_attained Dean’s List standing throughout architecture program _work selected for Ridenbaugh Juried Art Exhibition _work retained and archived for school record and accreditation _accepted and studied in Rome program for one semester _3rd place finisher in ICMA Annual CMU Competition _work retained and showcased by USC SOA on multiple occasions _received numerous merit scholarships throughout academic career
_RESUME_
Graduate Research Assistant // Perf + Form
BOTO Design Architects
Environmental Analysis + Parametric Response // 2014
Santa Monica, CA // 2013
_performed various environmental analyses on buildings _developed parametric modeling systems to respond to analyses _created several user-friendly tutorials and aided in workflow design
HDG Design Studio
Computer Proficiency
Spokane, WA // 2012 _aided in schematic design of multiple projects, including commercial mixed use building _worked on graphic design, logo design, and branding for various projects _assembled branding and media packages for multiple companies _met with various clients to discuss design criteria, objectives, etc.
Contacts:
Jennifer Lau - Boto Design Architects phone: 310.453.6400 ext. 110 email: jen@boto.com
_performed small scale schematic design and space planning _revised and created multiple drawings and sets for a variety of projects _developed as-built drawings of a medium-scale adaptive re-use _created schematic design of creative suites re-use project _Rhinoceros _Autodesk AutoCAD _Autodesk Revit _Autodesk 3DS Studio Max _Autodesk Maya _Grasshopper
Fabrication
_vaccu-form _laser-cut _3d print _CNC milling
Bret Thoeny - Boto Design Architects phone: 310.453.6400 email: bret@boto.com
_Adobe Illustrator _Adobe Photoshop _Adobe In Design _Adobe After Effects _V Ray rendering system _Mental Ray rendering system _wood modeling _acrylic/plastic modeling _TIG + MIG Welding
Joshua Hissong - HDG Architects phone: 509.321.5064 email: josh@studiohdg.com
content map
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(T)EXPO INNOVATION HUB
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Centro de Musica
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composing an abstract world
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space shuttle endeavour
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explorative surfaces library
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environmentally responsive facade
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cad/drafting
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(T)expo innovation hub
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content
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(T)expo innovation hub Intent: (T) Expo Innovation Hub/Start-up Office Space Course: ARCH 605A Grad Studio Site: Los Angeles, CA Media: Rhinoceros, Grasshopper, Vray, Photoshop, Illustrator
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generative diagrams
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program orientation DECK
LARGE CONFERENCE
ELEVATOR
SMALL CONFERENCE
BREAKOUT SPACE
EVENT
RESTROOMS
BREAK ROOM/KITCHEN
MECHANICAL
MECHANICAL
BREAKOUT SPACE RESTROOMS SMALL CONFERENCE
BOARD ROOM
ELECTRICAL/IT
3 POD
3 POD
NODE 2
5 POD OFFICES
NODE 1 DECK
SMALL CONFERENCE
BREAKOUT SPACE
LAB
ELEVATOR RESTROOMS
20 POD
OFFICES
NODE 3
STAFF WORK STAFF OFFICE
MECHANICAL
BREAK ROOM/KITCHEN
MECHANICAL
LARGE CONFERENCE
3 POD
5 POD
LOBBY/ENTRY /RECEPTION
5 POD OFFICES
BREAKOUT SPACE RESTROOMS SMALL CONFERENCE
BIKE RACKS
10 POD 10 POD 5 POD OFFICES
OUTDOOR AREA PARKING
BIKE RACKS
W/L
S
L/C
E
B/K
B/R
R/R
M/S
S/C
R Value Calculations: WALL:
20
10 3 R Value: O 5 Existing5Assembly
Aerogel R Value: 10/inch x 1.6 inches = 16 Total: 21
site forces
EX PO LIN E
EX PO SIT
N
BALDWIN HILLS
The immediate site context provides various viewpoints which are able to view the site, while nearby Baldwin Hills also overlook the area. Moves were made to maximize these viewpoints and respond to them with forms and geometry.
SLOW FAST
There are three main speeds in which people will experience the site, the speed of walking, driving a car, and taking the metro. There are variances within each of these categories however and these differences in speed effect how a visitor will percieve the environment.
BLV
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E A VE
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DAL
ON
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RED
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AVE ACE ALS
EX PO LIN E IO N BL VD
FLOOR: Existing Assembly: 6 Polyurethane Rigid Insulation: 8.7/inch x 4 inch Total: 40.8
NODES
D BLV ON RED
CLO
JEFFERSON BLVD
IO N BL VD
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DO
DAL VER
ACE ALS
ON RED
AVE
D BLV DO
DAL VER CLO
JEFFERSON BLVD
EX PO SIT
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speed E A VE
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direction E A VE
a
JEFFERSON BLVD
ROOF: Existing Assembly: 8 Engineered Soil: 1 per inch x 10 inches = 10 Polyurethane Insulation: 8.7 x 4 = 34.8 Total: 52.8 AVE
L/S
ACE
A
ALS
E/R
Legend
1 Metal Cap 2 Concrete Block EX PO LIN E 3 Steel Retention Tee EX PO SIT IO N BL VD 4 Growing Medium 5 Filter Fabric 6 Reservoir Layer 7 Moisture Retention Layer 8 Aeration Layer 9 Thermal Insulation N 10 Drainage Layer 11 Root Barrier 12 Membrane Flashing 13 Rubber Gasket 14 The variety of lines of interest seem to converge at two main Stone Tile 15 points on the site, creating two nodes or possible areas Rigid for Sub Floor 16 intervention Concrete Slab 17 Rigid Insulation 18 Final Ceiling Assembly 19 Aperture 20 Truss System 21 Double Sided Glazing 22 Steel Frame/Mullion Assembly 23 18”x18” Aerogel Panel 24 Beam Flange 25
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tectonic chunk ch_01 02
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key 01 02 03 04 05 06 07 08 09 10
Steel mesh Roof Light guage Steel Channel Finish Steel Exterior Panel Finish Interior Roof Finish Horizontal Louver System Performative “Gils” Light Steel Framing UFAD Air Ducts Plumbing/HVAC Duct Lt. Guage Steel Framing Ass.
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11 12 13 14 15 16 17
Castellated Steel Beam Concrete Slab Floor Glazing Assembly Steel Decking Board Insulation Finish Steel Underbelly Steel Column
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Membrane Drainage Mat Foundation Bolt Pile Pile Cap Crushed Stone Protection Board
tectonic chunk
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Adam Dubyna, Jake Saunooke, David Burpee Assignment 4 ARCH 611 Advanced Building Systems Doris Sung and Gary Paige
ch_02 r_03
ch_03
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detail development STEEL CHANNEL
FINISH EXTERIOR STEEL PANEL
VERTICAL FIN LOUVER
STEEL MESH DECK
HANDRAIL MOISTURE BARRIER
LIGHT FRAME STEEL FAADE STRUCTURE STEEL I BEAM CONNECTION ASSEMBLY
REFRIGERANT LINES HVAC AIR DUCT HVAC DIFFUSOR
FRESH AIR FEED CHAMBER
s_01
DOUBLE GLAZING SYSTEM
OPERABLE VENTILATION WINDOW
CORRUGATED STEEL DECKING
CONCRETE SLAB FLOORING STEEL PANEL UNDERBELLY STRUCTURAL COLUMN
REINFORCED CONCRETE FOUNDATION STEEL REBAR REINFORCEMENT
ds_01
ch_04
15 DN
BREAKOUT SPACE DECK
BREAKOUT SPACE
SMALL CONFERENCE
MECH
UP
3 POD
5 POD
3 POD
ELEV.
DN
OFFICE
OFFICE
OFFICE
ELEC. / IT
MECH
LARGE CONFERENCE ROOM
SMALL CONFERENCE BOARDROOM
BREAK ROOM/KITCHEN
OFFICE
OFFICE
EVENT SPACE
20 POD 1
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3 POD
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BREAKOUT SPACE DECK
MECH
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SMALL CONFERENCE
5 POD
STAFF OFFICE
5 POD
DN
OFFICE
LARGE CONFERENCE ROOM
SMALL CONFERENCE OFFICE
OFFICE
BREAK ROOM/KITCHEN
OFFICE
OFFICE
THE LAB
STAFF WORK AREA
MECH
OFFICE
5 POD 10 POD 1
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DN
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LOBBY
UP
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centro de MĂšSICA
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CENTRO DE MĂšSICA
work selected for showcase by usc school of architecture
Intent: Sao Paulo Master Plan + Music Center Course: ARCH 605B Grad Studio Media: Rhinoceros, Grasshopper, VRay, Photoshop, Illustrator Site: Sao Paulo, BR
a
master plan_01
This project involved developing a preliminary master plan in Sao Paulo as a class, and then pursuing individual projects for the duration of the semester. Three schools were selected by the University of Sao Paulo to develop a particular area of Sao Paulo which was in dire need of redevelopment. The semester involved traveling to Sao Paulo in order to dicument the site as well as embrace Brazilian culture and study the role of Brazilian Modernism on the development of the city. Ultimately, I chose to cevelop a music and cultural center which housed various performance halls as well as several learning amenities to enrich the cultural richness of the area.
PLAZA
ACTIVE RECREATIONAL
ECO PRESERVE
PLAZA
PLAZA
PLAZA
25 0
100 50
250 150
500 350
generative diagrams a
CONCEPTUAL DIAGRAMS
MUSIC WAVEFORM b
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3D WAVEFORM
FIELD MANIPULATION
SITE DIAGRAMS plaza
SITE PATHWAYS
plaza
MASSING SKETCH
plaza
BUILDING/SITE RELATIONSHIP
MUSIC LEARNING CENTER 4,200 SQ METERS
SMALL PERFORMANCE HALL 450 SQ METERS 206 PERSON CAPACITY LRG PERFORMANCE CENTER 1400 SQ. METERS 668 PERSON CAPACITY
OUTDOOR LOBBY
DANCE HALL 600 SQ METERS 1000 PERSON CAPACITY
20 a
programming learning center
small performance hall - 450 sq. m 206 PERSON CAPACITY
6 CLASSROOMS 6 DANCE STUDIOS 6 REHEARSAL ROOMS STORE OFFICE TICKET OFFICE GALLERY STORAGE CAFE RESTROOMS
b
668 PERSON CAPACITY
dance hall - 600 sq. m 1000 PERSON CAPACITY
outdoor lobby
PROGRAM ORGANIZATION: 1400 SQ. METERS
MAIN HALL
BACK OF HOUSE
SM. PERF. CENTER
c
lrg performance hall - 1400 sq. m
site plan nature preserve main blvd plaza mixed use bldg (e) Housing river
LOBBY
DANCE HALL
OPEN SPACE LOBBY
()
CAFE
4,200 SQ METERS
LEARNING CENTER
CLASSROOMS DANCESTUDIOS OFFICES REHEARSAL ROOMS
FLOOR PLANS e e d
a r
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sp_01 // nts
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key a b c d e f g h i j
cafe store lobby gallery restroom classroom office lounge rehearsal rm balcony
j k l m n o p q r s
balcony locker rm dance studio sm perf. hall exterior lobby dance hall lrg perf hall back of house storage terrace seating
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R_01
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SECTIONS
s_03 // nts 09 3.5 00 -3
b
s_02 // nts 06 04 00 -3
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s_01 // nts 10 4.5 00 -2.5
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R_02
R_03
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an abstract world
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ABSTRACT WORLD COMPOSING AN
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Intent: Compose an abstract world Course: ARCH 564 computational geometry Media: Rhinoceros, Grasshopper, VRay, Photoshop, Illustrator Site: N/A
work selected for showcase by usc school of architecture
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gradient tectonics
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content
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gradient tectonics Intent: Space Shuttle Endeavour Exhibition Gallery Course: ARCH 505A Grad Studio Media: Rhinoceros, Grasshopper, VRay, Photoshop, Illustrator Site: California Science Center, L.A.
Project Description: The main goals of this project were to inspire, intrigue, and inform patrons about the shuttle program while respectfully representing various aspects of human achievement with regards to the shuttle and space missions. The project also aims to create an engaging experience which allows patrons to get up close and personal and utilize the shuttle as a dynamic classroom instead of a pristine artifact. For these reasons, the concepts of field and object and gradient tectonics were utilized to create an architectural field which can shift and morph to adapt to the programmatic needs of the project. The project relies heavily on views into the site from various distance sets as external factors for determining on-site reactions, as the perception of this project from the city inhabitants is an extremely important aspect. For this reason, 2d graphics and color were used in conjunction with spatial development to inform the user of the intended experience. The color of was utilized in order to maximize the viewing potential of the project from around the city. A grid/pixel pattern became the organizational and tectonic system used throughout the project, infecting the walls, floors, structure, and overall architectural language, varying in intensity to indicate different spatial use and program.
p_01
generative diagrams G
massing strategy
a
mass
b
c 1
site plan
macro shear
on site reactions
program a
program b
program c scale
micro shear
2
reaction areas On site reaction areas become areas of intensity on the building massing which get programmed to create spaces
add
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operational diagrams
34
1
phasing
2
circulation strategy
operational diagrams 3
concept: field and object
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program layout
endeavour gallery
5
p_02
air gallery
space exhibits
6
p_03
shared space
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floor plans
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1
fp_01 b on cti se
“ON THE GROUND” EXHIBIT
a
b
section a
section a
b on cti se
c key
a. “on the ground” exhibit b. “re-entry” exhibit c. restrooms d. booster exhibit
20 N
10
50
e. life and human systems exhibit f. fuel tank exhibit g. observation area h. shuttle bay exhibit
floor plans
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interior renders, sections
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1
2
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s_02 4 section a
s_01 b 3 section
190 ft
145 ft 120 ft 100 ft
50 ft
20 N
10
50
physical model, elevations
5
pm_01
e_01
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pm_03
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explorative surfaces library
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content
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explorative surfaces library Intent: Community Library Course: ARCH 505b Grad Studio Media: Rhinoceros, Grasshopper, VRay, Photoshop, Illustrator Site: Los Angeles, CA
1
site responses
main access from beverly blvd
adjacent to elementary school
views towards downtown
generative diagrams
2
massing strategy
Main massing used voids to create space for the main plaza, small plaza, automobile access in rear, as well as daycare drop-off and utility drop-off.
3
sp_01
4
surface manipulation
SURFACE
DIVIDE
MANIPULATE
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1
explorative surfaces library 2
programming adult
classroom multipurpose adult library a/v library theater private workrooms info/exhibition
children
children’s library daycare
social
cafe news/reading group work area
parti strategy
Interstitial
2800 1800 11,000 1200 1800 800 1000
Seating Reading Informal Meeting
program massing
utility
staff offices utility restrooms parking staff workroom atrium circulation computer stations group reading workstations
3600 1000
1600 1000 1800
1600 2300 800 10,000 1600 1600 4800 1800 2000
interstitial pathway
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analytical diagrams 3
structural strategy
4
environmental performance operable clerestory for stack ventilation
main structural elements auxiliary strutural elements
r_02
permeable paved landscape
diffused skylighting for natural light
perforated aluminum sheets
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main floor plan
N
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gallery
lobby
multipurpose room
classroom
restrooms
mechanical
staff office
staff workroom
cafe newstand
S2
children’s library
children’s library
1
fp_01
2
permeable paver detail
S1
S1
plans + Detail wall section N
ds_01
vertical light tubes double glazing perforated aluminum panels
steel column steel W beam
concrete slab floor steel decking perforated aluminum panels finish ceiling assembly
concrete foundation
fp_02
5
fp_B
N
concrete slab floor steel decking
4
N
3
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performative facade
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content
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a 2012-2014
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environmentally responsive skin Intent: Create a skin which can respond to various environmental conditions Course: USC SOA Research & Design Media: Rhinoceros, Grasshopper, Ladyug, Illustrator, Arduino Website: www.performance-and-form.com
a
light sensor
single panel configuration shading “blade”
servo motor
shading panel
center pivot
blade axel
b
This project was an effort to create a workflow between multiple programs in order to increase the environmental performance of a building’s facade. This work was done in congruence with the USC SOA’s efforts to enrich the environmental agenda of their program. This exercise was used to help create a curriculum that emphasizes real world environmental performance goals in conjunction with modern computational analyses and workflows.
b
TYP. Assembly
c
solar radiation analysis
100% open
generative diagrams a
variable opacity
b
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march 26, 17:00 100% open
august 26, 09:00 50% open
R Value Calculations: WALL: Existing Assembly R Value: 5 Aerogel R Value: 10/inch x 1.6 inche Total: 21
FLOOR: Existing Assembly: 6 Polyurethane Rigid Insulation: 8.7/inc Total: 40.8
ROOF: Existing Assembly: 8 Engineered Soil: 1 per inch x 10 inch Polyurethane Insulation: 8.7 x 4 = 34 Total: 52.8 Legend
0% open
1 2 3 4 5 6 7 8
Metal Cap Concrete Block Steel Retention Tee Growing Medium Filter Fabric Reservoir Layer Moisture Retention Layer Aeration Layer
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drafting//cad
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content
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drafting // cad arab institute + aerogel
a
b
jean nouvel selected for accreditation
a & A building + cast glass paul rudolph
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R Value Calculations: WALL: Existing Assembly R Value: 5 Aerogel R Value: 10/inch x 1.6 inches = 16 Total: 21
25 26 27
FLOOR: Existing Assembly: 6 Polyurethane Rigid Insulation: 8.7/inch x 4 inches = 34.8 Total: 40.8
28 29 30
ROOF: Existing Assembly: 8 Engineered Soil: 1 per inch x 10 inches = 10 Polyurethane Insulation: 8.7 x 4 = 34.8 Total: 52.8
31 32 Legend
Legend 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45
Metal Cap Concrete Block Steel Retention Tee Growing Medium Filter Fabric Reservoir Layer Moisture Retention Layer Aeration Layer Thermal Insulation Drainage Layer Root Barrier Membrane Flashing ;OLYTVWSHZ[PJ >H[LYWYVVÄUN 4LTIYHUL Rubber Gasket Stone Tile Rigid Sub Floor Concrete Slab Rigid Insulation Final Ceiling Assembly Aperture Truss System Double Sided Glazing Steel Frame/Mullion Assembly 18”x18” Aerogel Panel Beam Flange Flange Weld High Strength Bolt Shear Connection Plate Beam Web -PYLWYVVÄUN Weld Backing Bar Column Web Column Flange Column Sole Second Pouring Layer Concrete Strut Expansion Joint Concrete Slab Membrane Drainage Mat Foundation Bolt Pile Pile Cap Crushed Stone Protection Board
Adam Dubyna, Jake Saunooke, David Burpee Assignment 4 ARCH 611 Advanced Building Systems Doris Sung and Gary Paige
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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
Drainage Gravel Plant Bearing Layer, 100mm Root Barrier Thermal Insulation, 40mm Reinforced Concrete, 90mm Air Frame Cavity Cast Glass Block Aluminum Catwalk Aluminum Cast Glass Frame Double Glazing, 3mm each Aluminum Mullion Sheet Steel Capping, 3mm Scraped Render, 2 coats Stainless Steel Sheet, 3mm Double Glazing, 3mm each + 9 mm cavity Operable Sash Steel
Legend David Burpee, Adam Dubyna, Jake Saunooke ARCH 611 1 Drainage Gravel Doris Sung and Gary Paige 2 Plant Bearing Layer, 100mm Assignment 5 Barrier 3 Root 4 Thermal Insulation, 40mm 5 6 Reinforced Concrete, 90mm 7 Air Frame Cavity 8 Cast Glass Block 9 Aluminum Catwalk 10 Aluminum Cast Glass Frame 11 Double Glazing, 3mm each 12 Aluminum Mullion 13 Sheet Steel Capping, 3mm 14 Scraped Render, 2 coats 15 Stainless Steel Sheet, 3mm 16 Double Glazing, 3mm each + 9 mm cavity 17 Operable Sash 18 Steel
David Burpee, Adam Dubyna, Jake Saunooke ARCH 611 Doris Sung and Gary Paige Assignment 5
drafting // cad
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R Value Calculations: WALL: Existing Assembly R Value: 5 Aerogel R Value: 10/inch x 1.6 inche Total: 21
b
pmi properties, san francisco, ca boto design architects remodel set
FLOOR: Existing Assembly: 6 Polyurethane Rigid Insulation: 8.7/inch Total: 40.8
ROOF: Existing Assembly: 8 Engineered Soil: 1 per inch x 10 inch Polyurethane Insulation: 8.7 x 4 = 34 Total: 52.8 Legend 1 2 3 4 5 6 7 8
Metal Cap Concrete Block Steel Retention Tee Growing Medium Filter Fabric Reservoir Layer Moisture Retention Layer Aeration Layer
thank you
David Burpee 612 S. Flower St. #1119 Los Angeles, CA 90017 509.993.9982 d_burpee@hotmail.com