Joseph Chiafari Portfolio 2014

Portfolio work samples by Joseph J Chiafari

Portfolio

Project Architect at Pogany Architecture 6375 N. Figueroa St., Los Angeles, CA 2013 -2014 rehabilitation / re-use: commercial office and kitchen SD, DD, CD (permitted by LA DBS), and CA for a full rehabilitation project

1340 Summitridge Dr., Los Angeles, CA 2013 -2014 rehabilitation: single family residential SD, DD, and architectural finish details for a full rehabilitation project

3510 Multiview Dr., Los Angeles, CA 2013 -2014 rehabilitation: single family residential SD, DD, and CD (permitted by LA DBS) for a full rehabilitation project

Intern at Michael Maltzan Architecture One Santa Fe, Los Angeles, CA 1340 interior stair 2014 Pogany

2013 new building: mixed-use multi-family residential and commercial CD and physical model for ground up construction

Bull Creek Residence, Austin, TX 2013 new building: single family residential SD and DD for ground up construction

Intern at Oyler Wu Collaborative one santa fe model

Screenplay, Los Angeles, CA

2013 Michael Maltzan

2012 Dwell on Desgn Installation: tube steel and nylon rope partition rope tie off techniques and fabrication

M. Arch. I at SCI-Arc CH-IP (US DOE 2011), Los Angeles, CA / Washington D.C. spring 2011 new construction (competition): single family residential SD, DD, CD, CA and fabrication for an energy efficient home

The Broad Museum, Los Angeles, CA fall 2010 design concept: art museum and archive SD and model for a public art museum and archive in downtown l.a.

Geometrically Articulated, Los Angeles, CA mundelein exterior

fall 2011 design installation: a mock up corian material exploration a collaboration with Gaela Bongo, Sean Lee, Mostafa Ghaffari, + Joseph Ramiro

2004 Ivan Brice

Project Manager at Gee2000 Architects Hasan Residence, Brooklyn, NY 2006 - 2008 rehabilitation: residential with FAR reallocation SD, DD, and CD (permitted by NYC DOB) never built

hasan existing 2008 Gee 2000

Architectural Designer at Ivan Brice Architecture Mundelein Hall (Riverdale Country School), Bronx, NY 2004 -2005, restoration: daycare facility and management office SD and CA for an exterior and interior restoration and reuse project

Architecture Minor at SUNY at Buffalo McHale Archive, Buffalo, NY 2002 - 2004 academic fellowship and archive office SD, DD, CD, CA and fabrication for an architecutal interior project a collaboration with Mehrdad Hadighi, Tim Burke, Jose Chang, + Noboru Inoue

mchale interior 2004 SUNY Buffalo

contents + project statements work samples by Joseph J Chiafari

conference room skylight details 2014

project architect at Pogany Architecture

6375 N. Figueroa St. �Commercial Rehabilition�

north elevation at Figueroa St. an 2014

west elevation at conference ro 2014

research kitchen 2014

nd Hamlet St.

oom project architect at Pogany Architecture

6375 N. Figueroa St. �Commercial Rehabilition�

completed conference room

section at east facade (office)

2014

2014

1st floor plan and site plan 2013

0 stair (res. entry) 1 entry 2 com. kitchen 3 office 4 conference rm. 5 utility cl. 6 bathroom 7 electric cl. 8 architect’s office 9 yard 9

4

7 6 5 1

2

0 3

8

1

project architect at Pogany Architecture

6375 N. Figueroa St. ”Commercial Rehabilition”

east facade gate grasshopper script 2014

east facade gate 2014

project architect at Pogany Architecture

6375 N. Figueroa St. �Commercial Rehabilition�

conference room skylight 2014

completed conference room 2014

project architect at Pogany Architecture

6375 N. Figueroa St. �Commercial Rehabilition�

conference room skylight 2014

conference room 2014

project architect at Pogany Architecture

1340 Summitridge Dr. �Residential Rehabilition�

stair railing iterations rendered 2013

south elevation 2014

entry door details 2013

1st floor plan and site plan 2013

0 stair 2 kitchen 4 living 6 bathroom 8 carport

7

0

2

3

5 6 1

4

8

project architect at Pogany Architecture

1340 Summitridge Dr. �Residential Rehabilition�

1 entry 3 dining 5 guest room 7 luandry

sectional render looking south 2013

re-use of existing roof detail at carport 2014

project architect at Pogany Architecture

3510 Multiview Dr. �Residential Rehabilition�

north east corner (connection t 2014

to surrounding landscape)

view

2014

0

6

8 4

7

1

6

3

9

0 bedroom 2 kitchen 4 living 6 bathroom 8 carport

1 entry 3 dining 5 guest room 7 luandry 9 master bedroom

1st floor plan and site plan 2014

2

6

w north from the guest bedroom

4

north east corner elevation 5

2014

project architect at Pogany Architecture

interior roof lines at living room 2014

3510 Multiview Dr. �Residential Rehabilition�

living room view looking east 2014

interior render looking west 2013

WOOD-CLAD, FABRIC-LINED FRAMES AND NICHES FOR PANEL PAINTINGS

CLOSED MILLWORK W/ DOORS FOR FRAMES APPROX 7’6”LF

BOOKSHELVES BENEATH COUNTER [APPROX. 110 LF TOTAL]

BULL CREEK RESIDENCE

MANUSCRIPT/BOOK STANDS

VIEW FROM NORTH END MICHAEL MALTZAN ARCHITECTURE, INC.

130521

ANGLED PANEL PAINTING DISPLAY AT TOP OF MILLWORK

HA ANGING F ALONG STA

“ADONIS A GIOV BOOKSHELVES BENEATH COUNTER [APPROX. 110 LF TOTAL]

MANUSCRIPT/BOOK STANDS

VIEW FROM WEST END BULL CREEK RESIDENCE MICHAEL MALTZAN ARCHITECTURE, INC.

interior render looking north 2013 intern at Michael Maltzan Architecture

Bull Creek Residence “Panel Painting Room”

130521

BULL CREEK RESIDENCE

MICHAEL MALTZAN ARCHIT

FRAMED PRINTS AIR

COUNTER FOR MANUSCRIPT BOOK STANDS

BOOKSHELVES BENEATH COUNTER [APPROX 110 LF TOTAL]

CLOSED MILLWORK W/ DOORS [FRAMED DRAWING STORAGE]

PANEL PAINTING NICHE

ND HIS HOUND” VANNI BANDINI 71” X 38” X 20”

TECTURE, INC.

PANEL PAINTING RM PLAN

WOOD-CLAD FRAMES FOR PANEL PAINTINGS

HANGING FRAMED PRINTS ALONG STAIR “ADONIS AND HIS HOUND” “A GIOVANNI BANDINI 71” X 38” X 20”

BULL CREEK RESIDENCE

MICHAEL MALTZAN ARCHITECTURE, INC.

interior render looking west 2013

COUNTER FOR MANUSCRIPT BOOK STANDS

BOOKSHELVES BENEATH COUNTER [APPROX 110 LF TOTAL] VIEW FROM NORTH END

BULL CREEK RESIDENCE MICHAEL MALTZAN ARCHITECTURE, INC.

130521

CLOSED MILLWORK W/ DOORS [FRAMED DRAWING STORAGE]

PANEL PAINTING RM PLAN

VIEW FROM WEST END

BULL CREEK RESIDENCE MICHAEL MALTZAN ARCHITECTURE, INC.

130521

interior render looking north 2013 intern at Michael Maltzan Architecture

Bull Creek Residence “Panel Painting Room”

A

B

C

D

E

F

G

H

I

J

K

P

R

Q

L

M

N

O

P

S

T

U

V

G

F

E

D

O N

M

L

K

J

media room floor plan 2013

I

H

media room panel layout 2013

Q

R

S

T

U

V

W

X

Y

media room sections with interior elevations 2013

W

X

C

B

A New Sculpturalism (MOCA) exhibition model piece logic 2013

intern at Michael Maltzan Architecture

One Santa Fe �Exhibition Model and Renderings�

south courtyard render 2013

south west courtyard render 2013

west elevation render 2013

exhibition model (south west courtyard) 2013

exhibition model (west facade) 2013

A New Sculpturalism (MOCA) exhibition model 2013

intern at Michael Maltzan Architecture

One Santa Fe �Exhibition Model and Renderings�

42'38'+ 29'-

52'61'+

D 2,100 sq ft

E 61'+

20'+

C 1,700 sq ft

'-

B 2,048 sq ft

44

4'+ 11'+

61'+

61'+

34'-

2,179 sq ft

56'+ 29'+

186'-

A 12,322 sq ft +2,043 sq ft 2nd Fl Storage 14,365 sq ft Total 82'-

P

1,839 sq ft

1,958 sq ft

1,300 sq ft

'+

60'+

60'+

Lobby

Q

70 '+

38'+

R

31

Leasing Office

901 sq ft

2'+ 31'+

Santa Fe A

commercial floor plan diagram 2013

19'+

'-

'+ 40

28

F

541 sq ft

'-

15

Residential Storage Space Re sta ura nt Pa tio

L

1,374 sq ft

1,779 sq ft

23'+

4,809 sq ft 82'+ 51'+

Lobby

2,001 sq ft

23'+ 12'+

40

'-

N 33'-

31'+

M

2,390 sq ft

10'-

27'+

K

1SF Community Art Space

53'+

33'-

20'+

20'-

O

31'+

54'-

35'+

49'+

Restaurant Expansion Space

J 1,491 sq ft

23'+

20'+

31'+

38'+

1,481 sq ft

1,149 sq ft

46'-

I 53'+

53'+

H 1,486 sq ft

38'+

53'+

1,497 sq ft

31'+

38'+

Lobby

42'+ 42 '+

30'+

G

751 sq ft

98'+

Avenue

SCALE 3/128" = 1'

0'

32'

64'

128'

prespective drawing 2012

intern at Oyler Wu Collaborative

Screenplay �Exhibition Piece and Drawings�

undulation and transparency 2012

seating connection to screen 2012

module connection details 2012

rope connection details 2012

Dwell on Design exhibition piece 2012

floor plan and elevations 2011

3 FOS

MODULAR SPLIT

A-201

PL

0" '-1 12

" 11 9'-

ȭ

7" 1'-

A2 A-301

C

C1

2

FOS

1

5

ȭ

4" 1'-

0" 3'-

FOF +9'-9 1/4"

1_

'-2 21

ȭ

1

"

4

5'-

8 2'-

"

2

9"

1_

BED PLATFORM

3'-10 12_ " 3'-1 34_ "

18'-5" "

2

EAST RAMP SEE A-101

" 30 " 1_ "= 7 2 "=30 @ 4R @10 3T

11 5'-

MEZZANINE 302

1_

C1

"

4

C5

UP

301

A1

FOF

BATHROOM

C2

301

201

4'-2"

A-212

A2

A-211

ȭ 2'-7 14_ "

C3

C4

R

ȭ

A-213

B

6

UP

FOF +4'-9 1/4"

ȭ

LAUNDRY ROOM

1_

A-213

402

WEST RAMP SEE A-101

6 6'-

0" 3'-

9'-11 34_ "

ȭ

401

" 30 " 1_ "= 7 2 "=30 @ 4R @10 3T

DRESSING

A3

ȭ

FOF +7'-3 1/4"

0" 3'-

2'-4"

ȭ

1

DINING ȭ

201

C3

FOF +2'-3"

4

-6"

ȭ1'

2

ȭ

ȭ

1_ " 4

LIVING ROOM

1_

" 4'-1 4

14'-7

9

A-302

3

A1

18'-8"

A-212

202

6'-9 14_ "

KITCHEN 202

13'-3 14_ "

C3 A-302

101

1'-11 12_ "

S FO

5'-1 12_ "

3_ 0 " 4'-1 4

4'-10 34_ "

FOF +1'-3"

C.1

ȭ

A 101

7 5'-1"

2'-10"

11'-0"

2'-3 34_ "

8

16'-6 14_ "

6

DECK AREA SEE A-101

10 2

PL 11'-0 14_ "

10'-3 34_ "

A2

1

2

A1 A-201

A1

FLOOR PLAN 1/4" = 1'-0"

0

2'

4'

8'

spring 2011 SCI-Arc studio for US DOE Solar Decathlon 2011

CHIP floor plan + elevations “SCI-Arc / Caltech Submission”

3

A-301

18'-6 34_ "

A4 A1 A-202

1 FOS

2

FOS

MODULAR SPLIT

3

C4

EN

VE

LO PE

A-301

LA

R

A1

SO

A-203

1

4

52째

ER EV OS F

C4 A-301

ELEVATION C1 NORTH 1/4" = 1'-0" 4'

2'

8'

2

3

MODULE SPLIT

F0S

1

F0S

0

C4

26 31 00

A-301

C

05 15 19

05 58 16

VE

LO PE

GENERAL SHEET NOTES LA

R

EN

1. DRAWING OF EXTERIOR SKIN IS NOTIONAL NOT ACTUAL.

SO

2. GRID "B" DENOTES CHANGE IN SLOPE OF ROOF.

3

13 31 33

13 31 33

3. GRID "C.1" DENOTES THE AXIS OF ROTATION FOR CANTILEVER EXTERIOR ENVELOPE. 4. GRID "2" DENOTES THE AXIS OF MODULAR SPLIT.

4

A1 A-203

5. ELEVATION DATUM MEASURES FROM THE HIGHEST POINT OF GRADE WITHIN PROPERTY LINE. 6. DIMENSIONS SHOWN TO FOF U.O.N.

1

101

SHEET NOTES

2

C4 A-301

B

1. SEE SHEET A-741 FOR DECK DETAILS 2. SEE SHEET A-731 FOR RAMP DETAILS

ELEVATION A1 SOUTH 1/4" = 1'-0" 0

4'

2'

8'

3. OVERHANG CABINETS ABOVE, TYP. 4. REMOVABLE CABINETS & SOFT FURNITURE, TYP. 5. WINDOW 2 INSTALLED WITH VENT LOCK ALLOWING FOR 4" MAX OPENING. 6. EXTENT OF PV PANEL ARRAY ABOVE. 7. EXTENT OF FENESTRATION COLLAR ABOVE. C1

8. EXTENT OF BLDG. ENVELOPE ABOVE.

FOF

ROOF PROFILE FOF

FOF

10. EXTENT OF WATER UTILITY UNIT

C

A

9. EXTENT OF AIR CONDENSER CANTILEVER UNIT ABOVE.

B

A-202

C5 A-302

REFERENCE KEYNOTES

SOLAR ENVELOPE 18'-0"

SOLAR ENVELOPE

ROOF PROFILE FOF

C.1

A

T.O. PLYWOOD 16'-11 3/4"

C4 A-203

26 31 00

MODULE SPLIT 9'-9 1/4"

4

LAUNDRY 7'-3 1/4" 202

1

BATHROOM 4'-9 1/4" KITCHEN 2'-3"

3

LIVING ROOM 1'-3" T.O. GRADE 0'-0"

C5 A-302

C1

EAST ELEVATION 1/4" = 1'-0"

0

2'

4'

8'

FINISHED CDX PLYWOOD FINISHED CEDAR PLANKS

FOF

ROOF PROFILE FOF

FOF

FINISHED FLOOR LEGEND

C

B

A

N

SOLAR ENVELOPE

IL NT CA

C5 A-302

SOLAR ENVELOPE 18'-0" C1 A-203

T.O. PLYWOOD 16'-11 3/4"

06 05 23.B0 06 05 23.B0 3

5 13 31 33

1

MODULE SPLIT 9'-9 1/4"

4

LAUNDRY 7'-3 1/4" 202

BATHROOM 4'-9 1/4"

2

3

KITCHEN 2'-3" LIVING ROOM 1'-3" T.O. GRADE 0'-0"

C5

A1

WEST ELEVATION 1/4" = 1'-0"

0

2'

4'

8'

A-203

CHIP is SHAPED

US DEPARTMENT OF ENERGY SOLAR DECATHLON 2011

TO PERFORM

SCI-ARC and CALTECH present

START HERE

3

a compact hyper-insulated prototype

1

CHIP is a solar powered home, but its goal is not only to PRODUCE ENERGY. CHIP REDUCES

Adjust The Interior

Tilt Your Roof

CONSUMPTION. CHIP is able to accomplish this by reimagining conventional building practices through innovative design and cutting edge technology. The end result is a new prototype for construction and living. CHIP is affordable, efficient, innovative, flexible, and most importantly FUN!

Park Your Car

www.chip2011.com

2

CHIP is

CHIP is

HYPER-INSULATED

PUFFY

Insulation in a typical house is limited by wall space and trapped inbetween structure. This causes gaps in the insulation which means loss of the previous ENERGY!

A single

AFFORDABLE vin

fabric membrane efficiently

wraps the entire building. Vinyl is

RECYCLABLE, resistan

to teat, and is extremely

DURABLE.

1 CHIP’s insulation is moved to the out side of the wood structure allowing it to be continuous and much thicker. This OUTSULATION means that CHIP CONSERVES much more energy than your typical home.

CHIP is

SMART

CHIP uses PASSIVE systems to conserve energy.

CONNEC EXCESS HEAT

Blocks Direct Light

from the HVAC is

RECYCLED and

Cool Air

Lets in Indirect Light

CHIP is

CHIP’s ACTIVE systems are EFFICIENT and resourceful.

used to heat water. hot water storage

SOUTH OVERHANG Hot Air

Excess Heat

Cool Air

NATURAL VENTILATION

Rainwater is

Rainwater

rain water storage

COLLECTED and SAVED for future use when there is no natural precipitation.

AUTOMATIC MOD lets CHIP do the work of

Greywater from laundry Greywater OUTSULATION

is REUSED to water planters.

maximizing EFFICIEN

CHIP is MAXIMUM

meanwhile on the inside...

LIVING

Instead of rooms, CHIP has

4

r

platforms. These platforms offer the FUNCTIONALITY of rooms while allowing the space to be FREE and OPEN.

Now Make It Smaller!

CHIP

is

FLEXIBLE CHIP has a central open volume that is FLEXIBLE. The kink in floor plan allows the space to feel LARGER and differentiates the public spaces and private spaces.

X

Say Hello to CHIP!

CHIP is

PRODUCTIVE

nyl

Each solar panel operates independently from the array, improving EFFICIENCY. This allows the array to operate even in partial shade.

2

l

nt

The mounting system allows for

EXPANDABILITY!

3 The tufts and cables give

The 15 degree slope is ideal for SOLAR GAIN.

PUFFY SOFT appearance.

15Ý

CHIP its distinct and

The array is less than $5 per Watt, making it very

It can generate enough energy for 2 CHIPS!

AFFORDABLE.

CHIP is

CTED to you

SIMPLE CHIP has an ON/OFF

SWITCH, so that when NOTHING.

you are gone CHIP CONSUMES

ON

MANUAL MODE lets you MONITOR

OFF

energy use and control the home. C A L I F O R N I A

O F

T E C H N O L O G Y

Peter & Melanie Cross

BYE!spring 2011 SCI-Arc studio for US DOE Solar Decathlon 2011 Tim & Neda Disney

DE

NCY.

I N S T I T U T E

GESTURES can

CHIP sections, details, + exterior Abby Scheuer

remotely turn appliances off and on.

“SCI-Arc / Caltech Submission”

Oliver S Cojot-Goldberg

2

3

A-312 D3

05 58 16

FOS

FOS

MODULAR SPLIT

1

SOLAR ENVELOPE 18'-0"

26 31 10

A-312

A-312

A1

C1

T.O. PLYWOOD 16'-11 3/4"

7

4 MODULE SPLIT 9'-9 1/4"

2 202

3 LAUNDRY 7'-3 1/4"

KITCHEN 202

BATHROOM 4'-9 1/4"

5

5

KITCHEN 2'-3" LIVING ROOM 1'-3" T.O. GRADE 0'-0"

A-312 A3

1/4" = 1'-0"

0

2'

4'

8'

F.O.S

2

26 31 00 05 14 13 05 50 00 05 12 69.K6 05 14 13 13 31 33

3 F.O.S

A1

BLDG. SECTION FACING NORTH

13 31 33.A1 13 31 33 07 27 00 07 21 16

PV PANEL 17'-6 3/4"

T.O.PLY

ROOF 16'-11 3/4"

T.O.PLY

1

13 31 33 07 27 00 MODULE SPLIT 9' 9 1/2"

05 50 00

1

05 50 00 05 05 23

13 31 33 13 31 33.A 07 21 16 07 27 00

2 A5 A-701

MODULE SPLIT 9'-9 1/2" MODULE SPLIT 9'-9 1/2"

06 16 00.D6 06 16 00.D6 05 05 23 23 81 26 06 18 13.A10 06 18 13.A10

BED LEVEL 9'-9 1/4"

5

6

06 16 00.D6

06 18 13.A10

05 58 16

3 202

202

KITCHEN LEVEL 2'-3"

4

B5 A-731

LIVING ROOM LEVEL 1'-3"

7 GRADE LEVEL

8

GRADE LEVEL

A2 WEST WALL SECTION 1" = 1'-0"

0

1/2'

1'

WALL SECTION A4 EAST 1" = 1'-0" 0

2'

SHEET NOTES

GENERAL SHEET NOTES 1. SECTIONS INDICATE COMPONENTS OF A COMPLETE TRANSVERSE SECTION 2. ANNOTATION DENOTES INDIVIDUAL ELEMENTS ONLY ONCE YET INDICATES TYP. REPEATED CONDITIONS IN OTHER AREAS OF THE SECTION U.O.N.

1. MODULE SPLITS OCCUR IN FOUR PLACES REFER TO EACH SPLIT FOR SPECIFIC DETAILS 2. MECHANICAL CRAWL SPACE ABOVE KITCHEN 3. WOOD PANEL SINGLE LIGHT DOOR TYPICAL AT WEST AND EAST DOORS SHEET A-601 FOR DOOR SCHEDULE 4. FLOOR LEVEL OF EAST WALL IS CUT AT LOWER LIVING ROOM LEVEL 5. 1/2" GRADE 8 MOUNTING BOLT 6. 3/4" PTD PLYWOOD DOOR TRIM ASSEMBLY W/ CLAD SHEET METAL DRIP

north + south elevation renders 2011

7.

1/2" STEEL HANG BRACKET WITH STEEL PIPE

8.

FOUNDATION

1/2'

1'

2'

REFERENCE KEYNOTES

DIVISION 07 - THERMAL / MOISTURE

DIVISION 05 - METALS

DIVISION 08 - OPENINGS

05 LU 28 05 05 00 05 14 13 05 16 69.K6 05 50 00 05 58 16

2X8 HANGER ALUMINUM RAILNG IRON RIDGE PV MOUNTING SYSTEM 2" STEEL PIPE METAL FABRICATIONS SHEET METAL

DIVISION 06 - WOODS, PLASTICS, AND COMPOSITE 06 06 06 06 06 06

11 11 11 16 16 16

00.D05 00.F12 00.G13 00 00.D6 00.D10

2X4 FRAMING - SOLID WOOD WALLS 2X6 FRAMING - FLOOR JOIST 2X8 RAFTERS @ 12" O.C. 1/2" PLYWOOD - OSB 1/2" PLYWOOD 5/8" PLYWOOD - UNDERSIDE / ROOF

07 21 16 07 27 00

08 14 00

BATT INSULATION AIR BARRIER BUILDING WRAP

WEST DOOR ENTRY

DIVISION 13 - SPECIAL CONSTRUCTION 13 31 33

13 31 33.A 13 31 33.A

VINYL COATED POLYESTER MEMBRANE VINYL COATED POLYESTER MEMBRANE ASSEMBLIES VINYL COATED POLYESTER MEMBRANE ASSEMBLIES 1/4" "J" HOOK

DIVISION 23 - H.V.A.C. 23 18 26

OUTDOOR CONDENSING UNIT

DIVISION 26 - ELECTRICAL 26 31 00

PV PANELS

REFERENCE

DIVISION 05 - METAL 05 05 05 05 05 05 05

05 05 14 40 50 53 58

00 23 13 00 00 00 16

ALUMINUM R 1/4" STEEL P IRON RIDGE COLD FORM METAL FABR METAL GRAT SHEET META

DIVISION 06 - WOOD 06 06 06 06 06 06 06 06

05 05 11 11 11 15 16 16

23 B0 23.B1 00.G7 00.G14 00.L6 13 00.D6 00.D10

10" LAG SCR 3/8" 3.5" LAG FRAMING- FL FRAMING- R FRAMING-4x WOOD DECK PLYWOOD- E PLYWOOD- U

A

B FOF

C.1 CANTILEVER

C

ȭ

GENERAL SHEET NOTES 1. DRAWING OF EXTERIOR SKIN IS NOTIONAL NOT ACTUAL.

A1 A301

A-311

2

1

A1

2

2.

JOG IN SECTION

26 31 10

T.O. PLYWOOD 16'-11 3/4"

2 26 31 10

BED LEVEL 1

ELEVATION DATUM REFERS TO F.O.F.

SOLAR ENVELOPE 18'-0"

ȭ

2

A-311 A4

501

DRESSING 401

SHEET NOTES

MODULE SPLIT 9'-9 1/4"

MEZZANINE 301

LAUNDRY 7'-3 1/4"

DINING ROOM

201

201

LIVING ROOM

BATHROOM 4'-9 1/4"

101

101

6

A-311

KITCHEN 2'-3"

A1

LIVING ROOM 1'-3" T.O. GRADE 0'-0"

1. DASHED LINE INDICATES A CONDITIONAL CABINET LAYOUT, REFER TO SHEET A-211 FOR CABINET LAYOUT AND A-711 FOR CABINET DETAIL. TYP. 2. OVERHEAD CASE WORK, REFER TO SHEET A-112 RCP FOR CABINET TAG, SEET A-711 FOR CABINET DETAIL 3. REFER TO A-213 FOR INT KITCHEN ELEVATIONS 4. MECHANICAL SPACE ABOVE KITCHEN 5. RAMP - SEE SHEET A-731 FOR RAMP DETAILS 6. DECK - SEE SHEET A-741 FOR DECK DETAILS 7. OUTDOOR HVAC CANTILEVER UNIT

REFERENCE KEYNOTES

A1 A301

C1

DIVISION 26 - ELECTRICAL

BLDG. SECTION FACING EAST 1/4 4" = 1'-0"

0

2'

4'

26 31 10

PV PANELS

8'

26 31 00 05 50 00 05 14 13 13 31 00.A1

1% SLOPE ROOF 1% SLOPE ROOF 06 16 00.D10 06 11 00.G14 LU28 JOIST HANGER 07 21 26 06 16 00.D6

MODULE SPLIT 9'-9 1/2" 06 16 00.D10 06 11 00.G14

13 31 33

1

07 21 16

07 21 35 06 16 00.D6 06 16 00.D6 06 16 00.D6 06 16 00.D6 05 50 00 06 05 23.BO 06 18 13.A12 06 05 23.B0 05 50 00 06 18 13.A12 05 50 00

06 80 00

08 52 00 06 16 00.D6 05 58 16 06 19 13 06 16 23 09 64 19

06 16 23 07 21 16.A10 06 11 00.G3 05 05 23 06 11 00L.6

07 21 16 A10 06 16 00.D10 13 31 00.A1

05 58 16 06 16 00.D6 05 40 00 06 80 00 07 21 16.A10 13 31 00.A1 13 31 33

101

06 11 00.G7 LU28 06 43 00.C2 06 11 00.L6 LSSU210

08 14 76 05 50 00 09 64 19 LU28 06 18 13.A12

101

LU 28 07 21 16 06 16 00.D6

LIVING ROOM 1'-3"

06 15 13 06 11 00.G7 05 05 23.A3

A1

NORTH WALL SECTION 0

11/2" = 1'-0"

1/2"

1'

A4

1 1/2'

SOUTH WALL SECTION 11/2" = 1'-0"

0

1/2"

1'

1 1/2'

KEYNOTES

LS

RAILNG LATE PV MOUNT SYSTEM MED METAL FRAMING RICATIONS TINGS AL

S, PLASTICS, AND COMPOSITIONS

REW SCREW LOOR JOSITS AFTERS x8 BEAM KING EXTERIOR WALL SHEATING ROOF UNDERSIDE AND SHEATING

06 18 13.A10 06 18 13.A12 06 19 00.D6 06 43 00.C2 06 48 13 06 80 00 LSSU210 LU28

4X10 LAMINATE VENEER LUMBER 6X10 LAMINATE VENEER LUMBER PLYWOOD- EXTERIOR WALL SHEATING 1-1/2" ROUND RAIL EXTERIOR GRADE FINISH PLYWOOD COMPOSITE FABRICATIONS ADJUSTABLE HANGER 2X8 HANGER

DIVISION 07 - THERMAL AND MOISTURE PROTECTION 07 21 35 07 21 16

SRAY FOAM INSULATION BATT INSULATION

DIVISION 08 - OPENING 08 52 00 08 14 76

WOOD FRAMED WINDOWS BI-FOLD EXT. WINDOW / DOOR

DIVISION 09 - FINISHES 09 64 19

FLOORING MATERIALS

DIVISION 13 - SPECIAL CONSTRUCTION 13 31 00.A1

CONTINUOUS PTFE COATED GLASS POLYESTER MEMBRANE

spring 2011 SCI-Arc studio for US DOE Solar Decathlon 2011

DIVISION 26 - ELECTRICAL 26 31 00

PV PANELS

DIVISION 32 - EXTERIOR IMPROVEMENTS 32 05 19.13

GEO-TEXTILE GROUND COVER

CHIP sections, details, + exterior “SCI-Arc / Caltech Submission”

pv panels and structure

REFERENCE KEYNOTES

2011

DIVISION 05 - METALS

1.

05 14 13

IRON RIDGE PV MOUNT RAIL

2.

05 12 69.K6

2" STEEL PIPE BENEATH VINYL FOR CLIP MOUNTING WOVEN GALVANIZED STEEL CABLE CLEAR VINYL COATED

3.

05 15 19

4.

DIVISION 13 - SPECIAL CONSTRUCTION 13 31 33

CONTINUOUS VINYL COATED POLYESTER MEMBRANE

DIVISION 26 - ELECTRICAL 26 31 00

3

1

2

FOS

MODULAR SPLIT

FOS

2

FOS

1

PV PANELS

C

05 15 19 13 31 33 1

42

37

38

39

34

35

36

31

32

33

28

29

30

25

26

27

22

23

24

19

20

21

3'-11"

ȭ

41

3'-0"

40

C.1

2

C.1

S FO

C.1

3

4

A

3'-8"

ROOF PROFILE FOF

SLOPE 7:25

B

2

ȭ

3'-0"

13'-7"

26 31 00

ȭ

1:100

SLOPE

R VE ILE S NT FO CA

16

17

18

13

14

15

10

11

12

7

8

9

4

5

6

1

2

3

S FO

3 4

FOF

05 14 13 05 12 69.K6

ȭ 2'-9 12_ "

ȭ

1012_

1

2

3

1

2

N

A1

ROOF PLAN - PV PANELS 1/4" = 1'-0"

0

2'

4'

8'

A4

ROOF PLAN - PV STR 1/4" = 1'-0"

0

2'

4'

8'

SHEET NOTES

GENERAL SHEET NOTES 1. DRAWING OF EXTERIOR SKIN IS NOTIONAL NOT ACTUAL.

EXTENT OF WOOD STRUCTURE EXTENT OF PV PANEL ARRAY ABOVE

2. HORIZONTAL PV RAIL DIMENSIONED REL. TO REFERENCE BASE LINES "A" AND "2"

OUTDOOR HVAC CANTILEVER UNIT PV PANEL CABLE CONDUIT

3. VERTICAL PV RAIL DIMENSIONED REL. TO REFERENCE BASE LINES "C" AND "2" 4. 2" DIAMETER PIPE GRID DIMENSIONED REL. TO REFERENCE GRID LINES "B" AND "3"

3

MODULAR SPLIT

FOS

2

H.P. ROOF (PLY.) 16' 11 3/4"

C

IL NT CA

ER EV S FO

C.1

2

ROOF ELEV. 16' 9 1/2" FOF

B

4'-8 14_ "

1'-11 34_ "

2'-10 34_ "

25'-11"

1'-11 14_ "

2'-4 34_ "

1'-11 34_ "

A

1'-11 34_ "

2'-3"

1'-11 34_ "

L.P. ROOF (PLY.) 9' 6"

ȭ 2'-9 12_ "

ȭ2'-4 12_ "

ȭ 2'-10" ȭ

1'-6 14_ "

_" 2

2

3

N

RUCTURE

spring 2011 SCI-Arc studio for US DOE Solar Decathlon 2011

CHIP sections, details, + exterior “SCI-Arc / Caltech Submission”

bath plan and elevations

REFERENCE KEYNOTES

2011

DIVISION 06 - WOOD, PLASTICS, AND COMPOSITES

1.

06 15 13 06 20 00

2.

WOOD DECKING FINISHED CARPENTRY

DIVISION 07 - THERMAL / MOISTURE 07 60 30

STAINLESS STEEL SHEET METAL

DIVISION 09 - FINISHES 05 64 29

MARINE PLANK FLOORS

DIVISION 10 - SPECIALTIES 10 28 16

BATH ACCESSORIES

DIVISION 12 - FURNISHINGS 12 35 30.23

DIVISION 22 - PLUMBING

2

22 41 13.A1

22 41 16.A5 22 41 19.D2 22 41 39 22 41 39 22 41 39

312_ "

22 41 19.D2

WATER CLOSET - ELONGATED BOWL TOILET UNDER COUNTER LAVATORY SINK BATHTUB - DROP IN INSTALL SINGLE-HANDLE LAVATORY FAUCET SINGLE HANDLE TUB/SHOWER KIT RESIDENTIAL FAUCETS

BATHTUB

1'-7 12_ "

22 41 19.D2

1

2"

22 41 19.D2

113

108

3'-6 12_ "

10 28 16

10 28 16

10 28 16

1'-10"

22 41 39

6'-8 14_ "

07 60 30

113

301

22 41 39

301

1'-2 14_ "

07 60 30 22 41 16.A5

22 41 19.D2

BATHROOM 5'-1 1/4"

2'-3 12_ "

2'-9"

9'-8 12_ "

22 41 19.D2

2'-11 14_ "

MODULE SPLIT 10'-1 1/4"

1

22 41 39

1'-6 34_ "

1'-0 14_ "

1'-6"

1'-5 14_ "

1'-9 14_ "

06 42 00

07 60 30

BATHROOM CASEWORK

2"

22 41 39

C1

N. BATHROOM ELEV. 1/2" = 1'-0"

0

1'

2'

C3

4'

S. BATHROOM ELEV. 1/2" = 1'-0"

1'

2'

C

4'

2

312_ " 1_

1'-9 14_ "

9 6'-

1'-6 14_ "

22 41 39

1'-8 14_ "

22 41 39

22 41 19.D2 07 60 30

1_

"

2

3'-7 34_ "

"

4

8 2'-

MODULE SPLIT 10'-1 1/4"

1_

7 1'-

"

4

11'-9 14_ "

112_ "

1_

9 4'-

1'-6"

1 12 36 00

"

2

2

2'-9"

4'-11 34_ "

22 41 39

22 41 19.D2

214_ "

3"

10 28 16

22 41 19.D2 09 64 29

W. BATHROOM ELEV. 1/2" = 1'-0"

0

1'

10 28 16

1'-6 12_ "

22 41 13.A1

A1

. EQ

8" 2'-

BATHROOM 5'-1 1/4"

. EQ

07 60 30

22 41 16.A5

2'

4'

A3

BATHROOM 1/2" = 1'-0"

0

1'

2'

SHEET NOTES

GENERAL SHEET NOTES

SHELF BEAM CASEWORK W/ SHELF SPACE & MEP DUCTS & CONDUITS

1. REFER TO SHEET A-711 FOR CABINET SCHEDULE AND DETAILS

CUSTOM SHOWER FAUCET HANDLE

C5

22 41 19.D2 07 60 30

301

3'-7 34_ "

11'-9 14_ "

112_ "

12 35 30.23

1'-6"

1'-6 14_ "

1'-9 14_ "

312_ "

2

1'-6 12_ "

3"13_ " 4

2'-9"

22 41 16.A5

22 41 39

22 41 19.D2

E. BATHROOM ELEV. 1/2" = 1'-0"

0

1'

2'

4'

5"

09 64 29

C1 1 30

C5

9 1'-

A-213

1_

"

4

A1 C3

. EQ

07 60 30

. EQ

22 41 16.A5 22 41 19.D2

3_

1 2'-

3_

11 3'-

"

4

1_

1 7'-

3_

11

"

4

"

4

"

4

N

- ENLARGED PLAN 4'

spring 2011 SCI-Arc studio for US DOE Solar Decathlon 2011

CHIP sections, details, + exterior “SCI-Arc / Caltech Submission”

south elevation render 2011

interior render 2011

north elevation render 2011

Site Plan

Scale: 1/64”=1’

fall 2010 SCI-Arc architectural design studio

The Broad Museum, Los Angeles “Occupiable Display Facade”

site plan 2010

N

3rd - 6th floor plans 2010

2nd St

Hope St

0

0

2

1

1

3 0

4

3rd St 3rd fl plan

Scale: 3/256�=

1’

0

3 2 6 0

6 1

5

0 open to below 1 staff room 2 security 3 gallery 4 elevator / stair 5 art storage 6 restrooms

3

4

4th fl plan

Scale: 3/256”=1’

Grand Ave

5

0 open to below 1 lobby 2 entry 3 gallery 4 elevator / stair

0

3

1

3

0 open to below 1 library 2 cafe 3 restrooms 4 elevator / stair 5 art storage

2 0

4

5th fl plan

Scale: 3/256”=1’

3

0

0 open to below 1 art storage 2 gallery 3 roof 4 elevator / stair

0 1

2 0

4

6th fl plan

Scale: 3/256”=1’

fall 2010 SCI-Arc architectural design studio

The Broad Museum, Los Angeles “Occupiable Display Facade”

north elevation 2010

section and facade formation diagram 2010

the broad museum south facade render 2010

create molds

prepare for heat

clamp together until cool

fall 2011 SCI-Arc materials studio collaboration with Gaela Bongo, Sean Lee, Mostafa Ghaffari, + Joseph Ramiro

Execution “Corian Research”

thermoform corian

glue seams together

sand clean

“Corian Research” geometrically configured fall 2011, advanced tectonics seminar drawing and model explorations a collaboration with Gaela Bongo, Sean Lee, Mostafa Ghaffari, + Joseph Ramiro a design + build exploration with 1/4” thick corian

carving, heating and bending 2011

pattern on form 2012

Projecting Image

Corian Sheet

Form Ribs Seperated Corian Strips

Form Spines

The groups’ objective with our midterm exploration was to identify the inherent prosperities in Corian, that we would then exploit for our final submission. With this intent we found that Corian was able to accept all sorts of spatial manipulation after it had reached a temperature of 350 degrees Fahrenheit. It’s other property that we found was it’s ability to be milled, resulting in Corian’s capability of accepting intricate patterns and possibly fascinating geometric potentials. With these attributes, we decided to approach the material with an intention of deploying it as a surface condition that we could modulate and potentially panelize because of Corian’s additional ability to adhere to itself seamlessly, with no need for additional fasteners.

With all of this in mind, we set out to create results that reflected the above learned information. After innumerable experiments with a simple geometry that could be aggregated or a three dimensional expression of an intersection where the Corian would simulate the qualities of connective tissue, we found that simply mapping these surface qualities with a bulging surface, where the flat sheet bubbles up to accept an intricate pattern was going to be our approach. Something simple with a variable section that could display the materials qualities was more important than achieving acrobatic connections for this demonstration. The images that are displayed on the accompanying pages document our progress and the final form. fall 2011 SCI-Arc materials studio collaboration with Gaela Bongo, Sean Lee, Mostafa Ghaffari, + Joseph Ramiro

Project Description “Corian Research”

etched corian 2011

shifting existing volume 2008

project manager at Gee 2000 Architects

Volumetric Shifts “Hasan Residence�

* 245 83rd st, R2

nyc zoning map 22b plot plan 2008

Mr. Hasan, the new owner of an historic Victorian home, had done his research before his purchase. The Landmarks Preservation Commission had no interest in maintaining his building’s 19th-century façade. What he neglected to understand was the property’s zoning parameters. The faulty premise used during the purchase of his home was its proximity to a medium-density zoning block. To Mr. Hasan’s dismay, the New York City Planning Commision had recently down-zoned his new neighborhood. While he fumed over the recent change, I saw it as a design opportunity. Mr. Hasan’s desire to maintain the volume he had purchased quickly negated his initial instinct to tear down and build a new structure. A quirk exists in the zoning code which allows alterations on existing buildings to supersede allowable standards, if the alteration does not increase the building’s degree of non-compliance. With this information, the client was willing to work with us, designing based on the existing conditions. As long as we maintained 50% of the exterior walls, we were allowed to redistribute floor area throughout the home. Armed with a program of simplifying the floor plan and providing maximumheight spaces, we began with a detailed survey of the existing Victorian. After documenting Mr. Hasan’s new purchase, we understood the shape we were allowed to operate within. This did not significantly augment our typical process of developing geometries via a zoning analysis. We were pleasantly surprised to see how much space was up for allocation. While the heights were astounding, a modest 600 square feet exceeded allowable norms. This was 19% over the 3,200 square feet determined by evaluating the lot. Yet, the real estate broker in him demanded that we retain every square millimeter, while completely reshaping the home’s aesthetics. Surprisingly, these regulations increased our flexibility to meet the client demands. Mr. Hasan had marginally considered his aesthetic sensibilities and a scale with which to occupy the building. Happily for me, regulatory limitations provided a framework with tangible dimensions. We arrived at our design by weighing Mr. Hasan’s initial concerns and drawing diagrammatic plans. Working with these documents, the decision was obvious: volume would be pushed down from the attic. Mr. Hasan stated his intension to exclusively use this floor for additional sleeping quarters. The second floor became the family’s bedroom area. A master bedroom occupies the front of the house, closest to the noise from the street. This configuration shields the children from excess noise and light, ensuring a better night’s rest. Coming down to the first floor, we developed a great room capable of hosting large family gatherings, where the dining room and living room can function as one. The mechanical facilities are easily accessed from project manager at Gee 2000 Architects a side entrance while also being accessible from the kitchen. Sadly, with all of the work completed, this home remains un-built because of financial issues.

Project Description “Hasan Residence”

zoning calculations 2008

existing floor area 1st floor = 1374.02 sf 2nd floor = 1460.49 sf attic floor = 1049.3 sf ---------------------------------------------total existing f.a. = 3883.81 sf * existing non-complying

floor area removed 1st floor = 1374.02 - 146.02 = 1228 2nd floor = 1460.49 - 103.1 = 1357 attic floor = 1049.3 - 357.91 = 691 ---------------------------------------------3883.81 - 607.03 = 3276.78 sf

-------------

8 sf 7.39 sf .39 sf -------------

proposed floor plans 2008

floor area from stair (double height space) 2nd floor = 1357.39 sf - 38.3 sf = 1319.09 sf attic floor = 691.39 sf - 38.3 sf = 653.09 sf ---------------------------------------------------------total removed f.a. = 76.6 sf proposed relocated floor area 1st floor = 1228 sf + 343.09 = 1571.09 sf 2nd floor = 1319.09 sf + 230.47 = 1549.56 sf attic floor = 653.09 + 30.92 = 648.01 sf ---------------------------------------------------------total prop. f.a. = 3804.66 sf

min osr = 150 existing osr= la - footprint= 6000 - 1460.49 = 1.16 total f.a. 3883.81 proposed osr = 6000 - 1571.09 = 1.16 = 1.16 3804.66 therfore no increase in the degree of non-compliance

floor area summary calculations 1st floor = 1571.09 sf 2nd floor = 1549.56 sf attic floor = 648.01 sf ---------------------------------------------------------total f.a. = 3804.66 sf <3883.81 sf therefore no increase in degree of non-compliance

project manager at Gee 2000 Architects

Reutilized Walls “Hasan Residence�

rear left side detail 2008

front left side detail 2008

front elevation detail 2008

altered elevations 2008

exterior elevations 2005

architectural designer at Ivan Brice Architecture

Mundelein Hall “Interior Restoration and Reprograming�

sections 2005

floor plans 2005

architectural designer at Ivan Brice Architecture

Mundelein Hall “Interior Restoration and Reprograming�

interior elevations 2005

architectural designer at Ivan Brice Architecture

Mundelein Hall “Interior Restoration and Reprograming�

2”x10” steel box beam rotation

310 hayes hall 06.22.2001, 7:45 pm

a collaboration with Mehrdad Hadighi, Tim Burke, Jose Chang, + Noboru Inoue

hard, soft, + translucent “McHale Archive”

310 hayes hall 06.22.2001, 8:00 pm

310 hayes hall 06.22.2001, 9:30 pm

310 hayes hall 06.25.2001, 9:30 am

When contrasted with hard, soft is flexible, voluptuous, and colorful. For our installation, “soft” articulated itself as a 1” thick, poured rubber coating surrounding six existing steel case filing cabinets. Maintaining our programmatic elements of archive and the McHales’ interest in mobility, the same team of faculty and students reconvened one year later. The term “soft” was used as a descriptor for something permeable and fluid that was being gelled together. Our new goal of re-shaping the McHales’ filing system shifted our focus to transitioning knowledge.

construction were applied to a completely new material with unforeseen virtues and unanticipated complications. While crafting the aluminum we were machinists, exacting in our production procedures and continually perfecting our techniques. Rubber’s lack of definite form, the quality we sought to showcase, forced us to think differently about our routines. How would we achieve undulations in its surface? What could we expose about the McHales’ knowledge base that was associated with the rubber’s inherent physical properties?

Our schedule of intensive meetings and exploratory research Experimentation solidified our objectives. We activated our quickly regained its steam. Lessons learned from research stated goal of contrasting this new piece with the existing

desk

vertical cases

filing cabinets

low horizontal case

mid horizontal cases

aluminum insertions. Translucency became our ideological connector. Product research led us to a semi-transparent poured rubber with a glowing amber finish. To exacerbate a contrast between books, “hard” knowledge and files, “flexible” or “soft” knowledge, we chose to augment the material’s color. We sought a candy-colored, lime green, an exclamation point to our office redesign. We came equipped with two goals as we entered our reconstituted shop space. First, how would we reconfigure the current filing cabinet to induce our desired clarity? Then, we had to devise a strategy for applying our surface undulation

techniques and casting research, at a much larger scale. The desired sheen required that we cast into a material with a similar surface condition. Plexiglas, at 1/16” thickness, was the only choice we found that was capable of contorting while retaining its rigidity and glassy finish. After undressing the cabinet’s sheet steel exterior, we bestowed upon it new motor skills. We designed a steel tension structure with casters to sister the three original cabinets’ skeletons together. By retaining only necessary structural elements, the cabinet was prepped for its new cloak. Plexi was applied judiciously to the skeleton and spaced an

new carriage

a collaboration with Mehrdad Hadighi, Tim Burke, Jose Chang, + Noboru Inoue

Reconfiguration “McHale Archive” (soft)

low horizontal aluminium case

top

drill press routine 101 crosby hall aluminium shop 2001

9:30 am

4:45 pm

4:00 pm

“McHale Archive” hard, soft, and translucent

3:15 pm

spring and summer 2001, architecture independent study 310 hayes hall, 3435 main street, buffalo, ny 14214

2:30 pm

12:45 pm

12:00 pm

11:15 am

10:30 am

9:45 am

9:00 am

0:00:00

inch away to provide a cavity for our rubb porary wood structure supported this sec Plexi and gave us a push/pull plane to int achieve the desired undulations.

With our structure in place we commenc cast. A three-hour exploration of materia kept us gingerly occupied, ensuring that in our mold did not explode into major c excitement arrived a day later, when the sembled for the cabinet’s unveiling. We h done it: we had just completed the McHa Then we proceeded to wheel our produc Hall, to bounce it against our aluminum c

0:00:05 0:02:25 0:05:18 0:08:10

side

front

“Hard” is the precisely-milled 1/2” thick alu This is our design, construction, and mate exercise. Two graduate students, two un ate students, and a faculty member were develop a program, drawings, and built w objective was housing the McHales’ colle and research. Our concept materialized b

2”x10” steel box beam + 30”x1/2” aluminium table top rotation of beam into steel box wall cavity, cast with concrete into terracotta block wall section drawing of 310 hayes hall 2001

ber. A temcond layer of teract with to

ced with the al thresholds small drips cracks. True team reashad finally ales’ archive. ct to Hayes creatures.

uminum. erial study dergradue selected to works. The ected efforts by

synthesizing a combination of the McHales’ ideas of transience and mobility with the team’s perceptions of long term storage. Aluminum was chosen for its exacting edge conditions, clean mill finish, and scalar proportions that matched our needs. Revered publications, print and bound research, and literature must receive the respect they are due. This only happens when its new domicile meets unyielding standards. The translucency is the nearly unperceivable floatation of these massive elements within the University of Buffalo’s 310 Hayes Hall. To contain the McHales’ explorations, we designed uniform bookcases measuring 11’-6” x 2’-6” x 10”. These elements are installed vertically or horizontally on either axis. Incredibly, these proportions are balanced on 1.5” casters, promoting migratory access to the McHales’ collections.

by crane. Led by Professor Hadighi, armed with his car jack, the three of us proceeded to rotate the beam, our gift from the university, into its final resting position. We achieved our intrusion into this 19th-century structure by casting steel boxes into its terracotta walls, with concrete and threaded anchors. Locking the steel support into position required hammering one 2” x 10” x 17” solid steel block into the void beneath the beam. Matching the aesthetic of the book cases, we topped our joist with a cantilevered, 1/2” thick, finely milled aluminum plate. Fitting the table into position was the by-product of weekly meetings and late night probes. This was an experience in project management while simultaneously maintaining construction responsibilities. We were co-conspirators in design, budget oversight, quality control, and leg work, through which I gained a ton of valuable experience.

Again, combining motion, hardness, and translucency, we developed a table, with invisible legs. A 2” x 10” x 23’ steel box beam was delivered a collaboration with through Hayes Hall’s second story window, Mehrdad Hadighi, Tim Burke, Jose Chang, + Noboru Inoue

Project Description “McHale Archive” (hard)

low horizontal aluminium case + 2�x10� steel box beam desk

low horizontal aluminium case

a collaboration with Mehrdad Hadighi, Tim Burke, Jose Chang, + Noboru Inoue

Project Description “McHale Archive” (hard)

before + after basement 108 parker hall rubber casting shop 2002

revealed

prepping

lifting

curing

unwrapping

a collaboration with Mehrdad Hadighi, Tim Burke, Jose Chang, + Noboru Inoue

Pouring “McHale Archive� (soft)

undulating

translucency