P O R T F O L I O r ac h e l 2
0
l e f e v r e 2
0
r ac h e l n i c o l e l e f e v r e 5246 Glenwood Creek, Clarkston, MI
1 . 248 . 872 . 4319
rachel.lefevre@yale.edu rachel-lefevre.squarespace.com
education yale u n iv e rsit y Yale School of Architecture, Master of Architecture Candidate, Spring 2020.
washington university in st. louis Sam Fox School of Design, Bachelor of Science in Architecture, Summa Cum Laude 2017. work experience
arch it e ct u ra l in t e rn
su 2018 Patterhn Ives Llc.
St. Louis, Missouri Projects: Washington University in St. Louis McKelvey Hall, Weygandt Pool House, various CD sets and DD documentation, AIA design award submissions and presentation drawings for Kol Rinah Synagogue, Ellis Hall Renovation, & Portal House.
su 2019 Somatic Collaborative, Anthony Acciavatti
New Haven, Connecticut Project: Exhibition design, construction drawings, and exhibit artifact fabrication for the 2019 Seoul Biennale: Collective City, Ganges exhibit.
2019/2020
Teaching Fellow Yale University Environmental Design, Professor Anna Dyson Core III Urbanism Studio, Professor Anthony Acciavatti
distinctions h.i. f eld m an priz e n o min e e Fall 2019 with Page Comeaux for Las Flores Community Waste Brokers.
yale re t ro spe cta Spring 2017, Fall 2018, Spring 2018, Fall 2019
elizabe t h s. schme rlin g e n d ow e d scho larship WashU Architecture Class of 2017 recipient. skills digital pro grams Revit (1 yr. experience), AutoCAD, Rhino, Grasshopper, DIVA/environmental simulation software; Rendering: VRay, Maxwell.
fabric at io n
Experience with 3d Printing, 3-axis milling, Kuka Robotics 6-axis mill used for weaving, carbon fiber fabrication, woodshop fabrication techniques. organizations alph a rho chi philo n cha pt e r Spring 2016 fundraising chair. Member 2014-present.
references
Anthony Acciavatti
Anna Dyson
Anna Ives
anthony.acciavatti@yale.edu
anna.dyson@yale.edu
aives@patterhn-ives.com
r ac h e l n i c o l e l e f e v r e 5246 Glenwood Creek, Clarkston, MI
1 . 248 . 872 . 4319
rachel.lefevre@yale.edu rnlefevre.cargo.site
November 30, 2020 Dear SOSO Recruitment Team, Thank you for taking the time to review my application materials during such a chaotic time. I am a recent graduate from the Masters program at the Yale School of Architecture interested in projects at the intersection of landscape, data infrastructure and architecture. I love the innovative and interdisciplinary work being done at SOSO and would love to be considered for the Architectural Designer position in Boston. As a designer, I am drawn to the interdisciplinary, multi-scalar work done at Soso. My own work focuses on creating a synthetic architecture, where the architectural concept is applied at every scale - from a single detail to schematic design of the building and to the surrounding urban context. I see these same values present in the work done at the firm, and for that reason think that I could not only learn a great deal but also contribute a great deal as an active team member at the firm. Although I have much to learn, as a young designer, I think I could contribute several unique sets of skills to projects at the firm beyond leadership, collaborative and interpersonal skills. Firstly, I have environmental/sustainable design experience, having taught energy modeling software in conjunction with Grasshopper as the Teaching Fellow for Environmental Design at Yale. I also have extensive experience with GIS, LiDAR, and creating big data, parametric visualizations for cartography projects. I am extremely comfortable with both rendering and creating presentation drawings and documents from emerging software technologies including VR and UnReal Engine. I also am interested in R&D, and have worked on some projects involving mass timber construction and carbon fiber technologies which may be of interest. As for professional experience, I have spent half of the past two summers working both in a small office and doing exhibition design. During the summer of 2018, I worked in an office in St. Louis doing work in both SD, DD, and CD as well as presentation drawings. Last summer, I coordinated and worked on Anthony Acciavatti’s exhibition at the Seoul Biennale on the Ganges River Basin work he did for the World Bank, doing research, concept design and fabrication drawings / work done both in house and by contractors in South Korea. Thank you again for your consideration. Best, Rachel LeFevre
001 _ a building that suits the situation
Code Red
R E S T O R A T I V E J U S T I C E C E N T E R Choreographed Dynamism Restorative justice is a progressive criminal justice procedure in which those who are harmed are brought into conversation with the ones who have harmed them. Through a meeting known as the ‘circle process.’ This process demands space which accomodates the needs of many through few means. Here, the entire floorplan is created by a field of doors which allow private spaces to open directly into the outside, bring the outdoors in, and allow facilitators to ‘reprogram’ the building for each group of people -mediating how parties enter and exit, what spaces would suit them and their needs. The restorative justice center is connected to a series of community spaces which encourage people to become familiar with the building outside of the justice system.
Code Yellow
Code Blue
04
□
002_ plan and section
(plant at 6 ft.) (section a)
â–
05
003 _ hybirdized elevation
004 _ skatepark
(detail b)
06
â–Ą
005 _ circle process room
(detail a)
â–
07
001 _ plan / section
43
BUTTON
STREET
2019 Jim Vlock Building Project Winning Design The house on Button Street focused on integrating the complexities of duplex living with the needs of people who previously experienced homelessness, as well as the use of new material technology. Tasked with building a house made of CLT (cross laminated timber), the scheme focuses on articulating and materializing separation between the two units. It does this not to segregate them but to interweave the processes of living, such that each unit has a presence in the other without being a nuisance. The house is designed to fit within the neighborhood, using common exterior finishes and massings -- seeking to maintain an air of inconspicuous belonging. This submission, Team G’s, was the selected proposal.
(plan at 18 ft.) (section a)
002 _ section perspective
Emily Cass, Thomas Mahon, Rachel LeFevre, Christine Pan, Lissette Valenzuela, Paul Wu.
08
â–Ą
(plant at 4 ft.) (elevation a)
003 _ isometric
â–
09
004 _ building sequence
10
â–¡
005 _ detail
006 _ model
â–
11
Sheet Number
JIM VLOCK BUILDING PROJECT 2018 TEAM G PROJECT TITLE
3
N
PROJECT LOCATION: 43 BUTTON STREET NEW HAVEN, CT 06519 ZONE: RM-2 LOT AREA: .15 ACRES PROPOSED TOTAL BUILDING AREA: 1,007 SQ. FT.
BUTTON STREET
DESCRIPTION: TWO FAMILY, TWO STORY RESIDENCE
43 BUTTON STREET
6 REQUIRED
AVAILABLE
PROPOSED
MIN. LOT AREA
5,400 SF
6,608.72 SF
6,608.72 SF
MIN. LOT WIDTH
50 '
65.42'
65.42'
MIN. LOT AREA PER DWELLING UNIT
2,000 SF. 1,400 SF EFFICENCY UNIT
6,608.72 SF
BUILDING COVERAGE
MAX = 30% LOT AREA
--
15.25%
BUILDING HEIGHT
4 STORIES / AVERAGE HEIGHT OF 45'
--
26' 4"
FRONT YARD SETBACK
17' OR AVERAGE STREET SETBACK
--
10'
PROJECT LOCATION
GENERAL G0.00 G0.10 ARCHITECTURE A0.00 A0.10 A1.00 A1.10 A1.20 A1.30 A1.40 A1.50 A2.00 A2.10 A2.20 A3.00 A3.10 A3.20 A3.30 A3.40 A5.00 A5.10 A5.20 A5.30 A5.40 A6.00 A6.01 A6.10 A6.20 A6.30 A6.40 A7.00 A8.00 A8.01 A8.02 A8.03 A8.04 A8.05 STRUCTURAL S1.00 S1.01 MECHANICAL M1.00 M1.01 ELECTRICAL E1.00 E2.00 PLUMBING P1.00 P1.01
Sheet Name
YALE SCHOOL OF ARCHITECTURE
TITLE SHEET EGRESS AND FIRE SAFETY SITE PLAN LANDSCAPE PLAN FOUNDATION PLAN LEVEL ONE FLOOR PLAN LEVEL TWO FLOOR PLAN ROOF PLAN LEVEL ONE REFLECTED CEILING PLAN LEVEL TWO REFLECTED CEILING PLAN EXTERIOR ELEVATIONS EXTERIOR ELEVATIONS EXTERIOR ELEVATIONS BUILDING SECTIONS BUILDING SECTIONS BUILDING SECTIONS BUILDING SECTIONS BUILDING SECTIONS EXTERIOR DETAILS EXTERIOR DETAILS EXTERIOR DETAILS EXTERIOR DETAILS CLT CONNECTION DETAILS SINGLE - KITCHEN ENLARGED PLAN SINGLE - KITCHEN SINGLE - BATH FAMILY - POWDER ROOM FAMILY - KITCHEN FAMILY - BATHROOM STAIR DETAILS CLT TAKEOFF FIRST FLOOR CLT TAKEOFF SECOND FLOOR CLT TAKEOFF 3 PLY CLT TAKEOFF 5 PLY 1 CLT TAKEOFF 5 PLY 2 CLT TAKEOFF ASSEMBLY
180 YORK ST NEW HAVEN, CT 06510 T: 203.500.1669 E : adam.hopfner@yale.edu
CLIENT: COLUMBUS
HOUSE
5 8 6 E L L A T. G R A S S O B L V D NEW HAVEN, CT 06519 T: 203.401.4400 E : crodenhizer@columbushouse.org
CONSULTANTS:
STRUCTURAL PLAN LEVEL ONE STRUCTURAL PLAN LEVEL TWO MECHANICAL PLAN FIRST FLOOR MECHANICAL PLAN SECOND FLOOR ELECTRICAL PLAN LEVEL ONE ELECTRICAL PLAN LEVEL TWO
PROJECT ADDRESS:
PLUMBING PLAN FIRST FLOOR PLUMBING PLAN SECOND FLOOR
4
DRAWING INDEX
1
43 Button Street New Haven, CT 06519 PROJECT NAME:
ABBREVIATIONS CL T.O.
6,608.72 SF
EQ. CLT GYP
CENTERLINE TOP OF EQUAL CROSS LAMINATED TIMBER GYPSUM BOARD
PROJECT INFORMATION
Jim Vlock Building Project 2018
PROJECT LOCATION
SHEET NUMBER:
PROJECT LOCATION 43 BUTTON STREET NEW HAVEN, CT 06519
G0.00
OWNER REAR YARD SETBACK
25'
--
49'
SIDE YARD SETBACK
ONE AT LEAST 8', OTHER AT LEAST 10'
--
16' 2" , 24' 11.25"
PARKING
9'X18' PARKING SPACE PER DWELLING
--
2 SPACES ZONING REQUIREMENTS (RM-2)
COLUMBUS HOUSE INC. 586 ELLA T. GRASSO BLVD. NEW HAVEN, CT 06519
NAME:
TITLE SHEET
SCALE:
7
ABBREVIATIONS
5
PROJECT INFORMATION
2
3/8" = 1'-0"
APRIL 30, 2018
DATE:
YALE SCHOOL OF ARCHITECTURE
N
180 YORK ST NEW HAVEN, CT 06510
EGRESS
T: 203.500.1669
EGRESS FAMILY UNIT
E : adam.hopfner@yale.edu
CLIENT: EGRESS
COLUMBUS
HOUSE
5 8 6 E L L A T. G R A S S O B L V D NEW HAVEN, CT 06519 SINGLE UNIT
T: 203.401.4400 E : crodenhizer@columbushouse.org
CONSULTANTS: EGRESS
FIRE SEPERATION BETWEEN UNITS
EGRESS
LEVEL ONE FIRE SAFETY + EGRESS DIAGRAM 1/8" = 1'-0"
1
PROJECT ADDRESS: 43 Button Street New Haven, CT 06519
FAMILY UNIT
EGRESS
PROJECT NAME: Jim Vlock Building Project 2018 SHEET NUMBER:
G0.10 FIRE SEPERATION BETWEEN UNITS EGRESS
NAME: SCALE: LEVEL TWO FIRE SAFETY + EGRESS DIAGRAM 1/8" = 1'-0"
12
â–¡
2
DATE:
EGRESS AND FIRE SAFETY 1/8" = 1'-0"
APRIL 30, 2018
YALE SCHOOL OF ARCHITECTURE
N
1 A3.00
1
1
A3.10
A3.20
180 YORK ST NEW HAVEN, CT 06510 T: 203.500.1669 E : adam.hopfner@yale.edu
30' - 0 3/4" 2' - 0"
CLIENT:
1
COLUMBUS
1
HOUSE
5 8 6 E L L A T. G R A S S O B L V D
CONCRETE PIER
7' - 4 1/2"
NEW HAVEN, CT 1
1
A3.30
A3.30
06519 T: 203.401.4400 E : crodenhizer@columbushouse.org
CONSULTANTS:
2
FOX BLOCKS FOUNDATION WALL CONCRETE FOOTING CONCRETE PIER
24' - 0"
24' - 0"
STUD FRAME FOUNDATION WALL
1
1
A3.40
A3.40
PROJECT ADDRESS: 43 Button Street New Haven, CT 06519 5
PROJECT NAME:
5
Jim Vlock Building Project 2018
43' - 0"
SHEET NUMBER:
1
1
1
A3.00
A3.10
A3.20
A1.00 NAME: 0'
2'
4'
FOUNDATION PLAN
8'
SCALE: FOUNDATION PLAN 3/16" = 1'-0"
A
B
D
3/16" = 1'-0"
APRIL 30, 2018
DATE:
YALE SCHOOL OF ARCHITECTURE
F
42' - 0" 12' - 11 1/4"
1
N
9' - 5 1/2"
180 YORK ST NEW HAVEN, CT
A2.20 2
06510
1
1
1
A3.00
A3.10
A3.20
CL
8' - 2"
3' - 4"
3' - 4"
T: 203.500.1669 E : adam.hopfner@yale.edu
CL
6' - 2"
CLIENT:
OVERHEAD 1
COLUMBUS
1
HOUSE
4' - 1 1/2"
5 8 6 E L L A T. G R A S S O B L V D NEW HAVEN, CT 1 FAMILY - LIVING ROOM
FAMILY - DINING ROOM
CL
FAMILY - ENTRY
3' - 3"
1 A6.00
06519
A3.30
7' - 10 1/2"
1 A3.30
T: 203.401.4400 E : crodenhizer@columbushouse.org
1 A6.20
CONSULTANTS: CL
2 2 5 A6.20 3
6' - 1 1/4"
24' - 0"
7 3/4" RISE 11" RUN
SINGLE - KITCHEN
1 A7.00
UP
1 A2.10
24' - 0"
6' - 1"
4 FAMILY - POWDER ROOM
A2.00 1
SINGLE - BATHROOM CL
OVERHEAD
2
3' - 0"
3
3 A6.10 5 4 3 A6.30 4
1
1
6' - 3 1/2"
16' - 7 1/2"
1 A6.01 2
2
A3.40 SINGLE - LIVING ROOM LAUNDRY
PROJECT ADDRESS:
FAMILY - KITCHEN
43 Button Street New Haven, CT 06519
CL
SINGLE - BEDROOM
A3.40
1 A6.30
1 A6.10
5
PROJECT NAME:
5 EGRESS
9' - 8"
6' - 3 1/4"
11' - 5 1/4"
5' - 5"
OVERHEAD
CL
CL
1 A3.00
Jim Vlock Building Project 2018
5' - 10 3/4" CL
1
1
A3.10
A3.20
SHEET NUMBER:
A1.10
1 A2.20
15' - 11 1/4"
16' - 10"
NAME:
42' - 0" 0' A
C
E
F
2'
4'
1. ALL DIMENSIONS ARE MEASURED FROM FACE OF STRUCTURE UNLESS OTHERWISE NOTED 2. WINDOWS AND DOORS ARE MEASURED FROM CENTERLINE LEVEL ONE FLOOR PLAN 3/16" = 1'-0"
A
42' - 0"
D
LEVEL ONE FLOOR PLAN
8'
NOTES
1
SCALE:
3/16" = 1'-0"
APRIL 30, 2018
DATE:
YALE SCHOOL OF ARCHITECTURE
F N
180 YORK ST NEW HAVEN, CT
A2.20 2
1 A3.00
1
1
A3.10
A3.20
06510 T: 203.500.1669 E : adam.hopfner@yale.edu
CLIENT: 1
COLUMBUS
1
HOUSE
3' - 5 1/4"
5 8 6 E L L A T. G R A S S O B L V D NEW HAVEN, CT 06519
CL
SKYLIGHT ABOVE
T: 203.401.4400
FAMILY - CLOSET
10"
CL
12' - 0"
5' - 5 1/4"
E : crodenhizer@columbushouse.org LAUNDRY
OPEN TO BELOW
FAMILY - MASTER BEDROOM
EGRESS
CONSULTANTS:
1 A2.10
24' - 0"
DN
5' - 11 1/4"
24' - 0"
HALL A2.00 1
3
1
CL
SKYLIGHT ABOVE
1
A3.40
A3.40
PROJECT ADDRESS:
FAMILY - BEDROOM
OPEN TO BELOW
43 Button Street New Haven, CT 06519
1 A6.40
2 5 A6.40 3 4
FAMILY - BATHROOM
5
PROJECT NAME:
5 EGRESS
5' - 8"
4' - 11 1/4"
Jim Vlock Building Project 2018
5' - 11"
CL
CL
SHEET NUMBER: CL
A1.20
1 A2.20
1 A3.00
1
1
A3.10
A3.20
NAME:
42' - 0" 0' A
C
F
2'
4'
1. ALL DIMENSIONS ARE MEASURED FROM FACE OF STRUCTURE UNLESS OTHERWISE NOTED 2. WINDOWS AND DOORS ARE MEASURED FROM CENTERLINE LEVEL TWO FLOOR PLAN 3/16" = 1'-0"
A
1
SCALE:
3/16" = 1'-0"
APRIL 30, 2018
DATE:
YALE SCHOOL OF ARCHITECTURE
N
F
42' - 0" CL
5' - 6"
LEVEL TWO FLOOR PLAN
8'
NOTES
6' - 1 3/4"
180 YORK ST NEW HAVEN, CT 06510 1
1
1
A3.00
A3.10
A3.20
T: 203.500.1669 E : adam.hopfner@yale.edu
CLIENT: OPERABLE VELUX "ROOF WINDOW"
COLUMBUS
GUTTER
1
HOUSE
5 8 6 E L L A T. G R A S S O B L V D
1
NEW HAVEN, CT 06519 SLOPE
1
T: 203.401.4400
1 A3.30
E : crodenhizer@columbushouse.org
12' - 0"
A3.30
CONSULTANTS:
STANDING SEAM METAL ROOF
24' - 0"
RIDGE CAP
24' - 0"
12/12 ROOF PITCH
12/12 ROOF PITCH
1
1
A3.40
PROJECT ADDRESS:
A3.40
SKYLIGHT
SKYLIGHT
43 Button Street New Haven, CT 06519
SLOPE
GUTTER
PROJECT NAME:
5
5
Jim Vlock Building Project 2018
SKYLIGHT
SHEET NUMBER: 1 A3.00
9' - 0"
6' - 6 1/4" CL
1' - 8 3/4"
1
1
A3.10
A3.20
7' - 9" CL
42' - 0"
A1.30 7' - 3 1/2"
NAME:
CL
0'
2'
4'
F
1. ALL DIMENSIONS ARE MEASURED FROM FACE OF STRUCTURE UNLESS OTHERWISE NOTED 2. WINDOWS AND DOORS ARE MEASURED FROM CENTERLINE ROOF PLAN 3/16" = 1'-0"
â–
ROOF PLAN
8'
NOTES A
1
SCALE: DATE:
3/16" = 1'-0"
APRIL 30, 2018
13
1
2
YALE SCHOOL OF ARCHITECTURE
5
180 YORK ST 1
1
A3.30
NEW HAVEN, CT
A3.40
06510 T: 203.500.1669 E : adam.hopfner@yale.edu RIDGE CAP
CLIENT:
VENTED "COLD" ROOF
COLUMBUS
HOUSE
5 8 6 E L L A T. G R A S S O B L V D SKYLIGHT
NEW HAVEN, CT 06519
TRUSS
T: 203.401.4400 E : crodenhizer@columbushouse.org
STANDING SEAM METAL ROOF
CONSULTANTS:
SKYLIGHT
GUTTER
GUTTER 2 A5.30 FAMILY - MASTER BEDROOM
GREY CEDAR SHAKE SIDING 5 A5.40
T.O. SECOND FINISHED FLOOR 8' - 10 7/8" FIRST FLOOR FINISHED CEILING 8' - 0" B.O. SOFFIT 7' - 7"
6 A5.40
WOOD SOFFIT
PROJECT ADDRESS:
OPERABLE WINDOW
SINGLE - KITCHEN
43 Button Street New Haven, CT 06519
SINGLE - LIVING ROOM
CORTEN METAL GUARD WOOD DECKING
FOX BLOCKS FOUNDATION
T.O. FIRST FINISHED FLOOR 0' - 0"
T.O. FIRST FINISHED FLOOR 0' - 0"
PROJECT NAME:
ADA RAMP FOOTING
LEVEL OF SIDEWALK -3' - 0"
Jim Vlock Building Project 2018
LEVEL OF SIDEWALK -3' - 0" CRAWL SPACE
SHEET NUMBER:
A3.00 NAME: 0'
2'
4'
BUILDING SECTIONS
8'
SCALE: SECTION A 3/16" = 1'-0"
1
1
YALE SCHOOL OF ARCHITECTURE
5
1
1
A3.30
A3.40
3/16" = 1'-0"
APRIL 30, 2018
DATE:
180 YORK ST NEW HAVEN, CT 06510 T: 203.500.1669 E : adam.hopfner@yale.edu RIDGE CAP
T.O. RIDGE 25' - 4"
CLIENT:
T.O. RIDGE 25' - 4" 2 A5.20
COLUMBUS
HOUSE
5 8 6 E L L A T. G R A S S O B L V D NEW HAVEN, CT 06519 STANDING SEAM METAL ROOF
T: 203.401.4400 E : crodenhizer@columbushouse.org
CONSULTANTS: 3 A5.20 GUTTER
GUTTER
AWNING WINDOW
PROJECT ADDRESS:
AWNING WINDOW
1 A5.20
FAMILY - DINING
43 Button Street New Haven, CT 06519
FAMILY - KITCHEN
GREY CEDAR SHAKE SIDING
GREY CEDAR SHAKE SIDING
FOX BLOCKS FOUNDATION
FOX BLOCKS FOUNDATION
T.O. FIRST FINISHED FLOOR 0' - 0"
T.O. FIRST FINISHED FLOOR 0' - 0"
PROJECT NAME: Jim Vlock Building Project 2018
CRAWL SPACE
SHEET NUMBER: B.O. FOUNDATION -7' - 6"
B.O. FOUNDATION -7' - 6"
A3.20 NAME: 0'
2'
4'
BUILDING SECTIONS
8'
SCALE: SECTION C 3/16" = 1'-0"
A
B
1
3/16" = 1'-0"
APRIL 30, 2018
DATE:
YALE SCHOOL OF ARCHITECTURE
F
180 YORK ST 1
1
1
A3.00
A3.10
A3.20
NEW HAVEN, CT 06510 T: 203.500.1669 E : adam.hopfner@yale.edu
CLIENT: COLUMBUS
HOUSE
5 8 6 E L L A T. G R A S S O B L V D NEW HAVEN, CT
STANDING SEAM METAL ROOF
06519 TRUSS
T: 203.401.4400 E : crodenhizer@columbushouse.org
5 A5.10
SECOND FLOOR FINISHED CEILING 16' - 11 1/8"
CONSULTANTS:
4 A5.00
FAMILY - MASTER BEDROOM
WINDOW
GREY CEDAR SHAKE SIDING
3 A5.00
T.O. SECOND FINISHED FLOOR 8' - 10 7/8"
B.O. SOFFIT 7' - 7"
1 A5.40 2 A5.40
1 A5.00
PROJECT ADDRESS:
WOOD SOFFIT WINDOW
SLIDING DOOR FAMILY - ENTRY
FAMILY - LIVING ROOM
43 Button Street New Haven, CT 06519
FAMILY - DINING ROOM CRAWL SPACE
FOX BLOCKS FOUNDATIONS
2 A5.00
T.O. FIRST FINISHED FLOOR 0' - 0"
PROJECT NAME:
T.O. FIRST FINISHED FLOOR 0' - 0"
Jim Vlock Building Project 2018
LEVEL OF SIDEWALK -3' - 0" CRAWL SPACE
SHEET NUMBER: B.O. FOUNDATION -7' - 6"
B.O. FOUNDATION -7' - 6"
A3.30 NAME:
0'
2'
4'
SCALE: SECTION 1 3/16" = 1'-0"
14
â–¡
BUILDING SECTIONS
8'
1
DATE:
3/16" = 1'-0"
APRIL 30, 2018
1
2
5
1
1
A3.30
A3.40
RIDGE CAP
VENTED "COLD" ROOF
SKYLIGHT
TRUSS
STANDING SEAM METAL ROOF SKYLIGHT
GUTTER
GUTTER 2 A5.30 FAMILY - MASTER BEDROOM
GREY CEDAR SHAKE SIDING 5 A5.40
T.O. SECOND FINISHED FLOOR 8' - 10 7/8" FIRST FLOOR FINISHED CEILING 8' - 0" B.O. SOFFIT 7' - 7"
WOOD SOFFIT
6 A5.40
OPERABLE WINDOW
SINGLE - KITCHEN
SINGLE - LIVING ROOM
CORTEN METAL GUARD WOOD DECKING
FOX BLOCKS FOUNDATION
T.O. FIRST FINISHED FLOOR 0' - 0" ADA RAMP FOOTING
LEVEL OF SIDEWALK -3' - 0" CRAWL SPACE
â–
15
YALE SCHOOL OF ARCHITECTURE 1" RIGID INSULATION
180 YORK ST NEW HAVEN, CT
OSB
06510 T: 203.500.1669
FURRING
E : adam.hopfner@yale.edu CEDAR SHAKE
CLIENT:
FLASHING UNDERLAYMENT
SLIDING DOOR SYSTEM
COLUMBUS
SUBSTRATE
HOUSE
5 8 6 E L L A T. G R A S S O B L V D
TRUSS RAFTER
NEW HAVEN, CT
BATT INSULATLION
06519
STANDING SEAM
T: 203.401.4400
EGRESS WINDOW SYSTEM
E : crodenhizer@columbushouse.org 2" X 6" STUD FRAMED WALL
CONSULTANTS:
5 PLY CLT
BATT INSULATION 1" RIGID INSULATION SLIDING DOOR HEADER 1 1/2" = 1'-0"
1
5 PLY CLT 18" LVL BEAM LAG SCREW
PROJECT ADDRESS:
SHAKES TIMBER BOLT
43 Button Street New Haven, CT 06519
LAG BOLT
SHEATHING
SCREWS 4" X 6" METAL BRACKET
OSB
SLIDING DOOR SYSTEM 1" RIGID INSULATION
PROJECT NAME:
BATT INSULATION
Jim Vlock Building Project 2018
STUD FRAMED WALL
SHEET NUMBER:
A5.00
FLASHING
NAME:
EXTERIOR DETAILS
SCALE: CLT - BALLOON - ROOF CONNECTION 1 1/2" = 1'-0"
CLT - BALLOON FRAME CONNECTION
4
1 1/2" = 1'-0"
SLIDING DOOR SILL
3
1 1/2" = 1'-0"
2
1 1/2" = 1'-0"
APRIL 30, 2018
DATE:
SHEATHING
YALE SCHOOL OF ARCHITECTURE
SHEATHING
OSB
STANDING SEAM
1" RIGID INSULATION
180 YORK ST
PLYWOOD
NEW HAVEN, CT
RIDGE CAP
06510
2" X 6" STUD FRAMING
T: 203.500.1669 NAIL PLATE
E : adam.hopfner@yale.edu
BATT INSULATION FASTENER
FLASHING
CLIENT:
STANDING SEAM
COLUMBUS
PLYWOOD GUTTER
WINDOW SYSTEM
BLOCKING
NEW HAVEN, CT
NAIL PLATE
BRACKET
HOUSE
5 8 6 E L L A T. G R A S S O B L V D 06519
TRUSS TOP CHORD
T: 203.401.4400 E : crodenhizer@columbushouse.org
CONSULTANTS:
TRUSS WEB
ROOF CONNECTION DETAIL 1 1/2" = 1'-0"
RIDGE CAP DETAIL
3
1 1/2" = 1'-0"
2
PROJECT ADDRESS:
STANDING SEAM PLYWOOD
43 Button Street New Haven, CT 06519
2" RIGID INSULATION
STANDING SEAM
PROJECT NAME: Jim Vlock Building Project 2018
PLYWOOD
5 PLY CLT
SHEET NUMBER:
CASEMENT WINDOW SYSTEM
EDGE OF PARAPET
A5.20 NAME: SCALE: TYP. WINDOW DETAIL 1 1/2" = 1'-0"
16
GUTTER DETAIL
1
1 1/2" = 1'-0"
â–¡
5
ROOF CONNECTION DETAIL 2 1 1/2" = 1'-0"
4
DATE:
EXTERIOR DETAILS 1 1/2" = 1'-0"
APRIL 30, 2018
YALE SCHOOL OF ARCHITECTURE
1" STANDING SEAM METAL ROOF PLYWOOD SUBSTRATE DRYWALL FIXED SKYLIGHT MULLION
180 YORK ST
CASEMENT SKYLIGHT SYSTEM
NEW HAVEN, CT 06510 T: 203.500.1669 BLOCKING
E : adam.hopfner@yale.edu
BATT INSULATION ALONG COLD ROOF
5 PLY CLT
TRUSS CORD INSIDE SHEATHING
CLIENT: COLUMBUS
HOUSE
5 8 6 E L L A T. G R A S S O B L V D NEW HAVEN, CT 06519 T: 203.401.4400 E : crodenhizer@columbushouse.org
CONSULTANTS:
2" X 6" STUD WALL
BEDROOM SKYLIGHT ASSEMBLY 1 1/2" = 1'-0"
2
SKYLIGHT CONNECTION DETAIL 1 1/2" = 1'-0"
1 PROJECT ADDRESS: 43 Button Street New Haven, CT 06519 PROJECT NAME: Jim Vlock Building Project 2018 SHEET NUMBER:
A5.30 NAME:
EXTERIOR DETAILS
SCALE:
1 1/2" = 1'-0"
APRIL 30, 2018
DATE:
YALE SCHOOL OF ARCHITECTURE
3 PLY CLT 5 PLY CLT 5 PLY CLT
SOUND INSULATION BLANKET
180 YORK ST NEW HAVEN, CT 4" X 6" BRACKET
06510 T: 203.500.1669
SELF-TAPPING SCREW
E : adam.hopfner@yale.edu
CLIENT:
4" X 6" BRACKET
LAG SCREW 4" X 6" BRACKET
SELF-TAPPING SCREW
COLUMBUS
HOUSE
5 8 6 E L L A T. G R A S S O B L V D
SELF-TAPPING SCREW
NEW HAVEN, CT 06519
LAG SCREW
3 PLY CLT
T: 203.401.4400
LAG SCREW
E : crodenhizer@columbushouse.org 5 PLY CLT
CONSULTANTS:
CLT CORNER CONDITION 2 1 1/2" = 1'-0"
5
CLT ACCOUSTIC SEPERATION ASSEMBLY 2 1 1/2" = 1'-0"
3
HARDWOOD FLOOR
CLT CORNER CONNECTION 1 1/2" = 1'-0"
1
5 PLY CLT
5 PLY CLT
PROJECT ADDRESS:
SOUND INSULATION BLANKET
43 Button Street New Haven, CT 06519 PROJECT NAME: Jim Vlock Building Project 2018
2" RIGID INSULATION 2" RIGID INSULATION
CASEMENT WINDOW
SHEET NUMBER:
CASEMENT WINDOW
A5.40
LAG SCREW
NAME: SCALE: CLT + WINDOW CONNETION 1 1/2" = 1'-0"
6
CLT ACCOUSTIC SEPERATION ASSEMBLY 1 1/2" = 1'-0"
â–
4
FRONT DOOR TO CLT CONNECTION 1 1/2" = 1'-0"
2
DATE:
CLT CONNECTION DETAILS 1 1/2" = 1'-0"
APRIL 30, 2018
17
CLT 1-3-1 t
5' - 3 1/2"
CLT A-3-1 b
5' - 3 1/2"
5' - 3 1/2"
5' - 3 1/2"
5' - 3 1/2"
CLT A-3-1 t
10' - 0"
10' - 0"
10' - 0"
10' - 0"
10' - 0"
CLT 1-3-1 b
YALE SCHOOL OF ARCHITECTURE
CLT 2-3-1 t
180 YORK ST NEW HAVEN, CT 06510 T: 203.500.1669
PILE A-3-5 sq 10'x5'3.5' - 3 1/8" = 1'-0"
10' - 0" 5' - 3 1/2"
5' - 3 1/2"
10' - 0"
9
CLT 2-3-1 b
10
11
10' - 0"
10' - 0"
CLT 2'-3-1 t
PILE A-3-5 sq 10'x5'3.5' - 4 1/8" = 1'-0"
PILE A-3-5 sq 10'x5'3.5' - 5 1/8" = 1'-0" 10' - 0"
E : adam.hopfner@yale.edu
CLIENT: COLUMBUS
HOUSE
5 8 6 E L L A T. G R A S S O B L V D NEW HAVEN, CT
CLT 2'-3-1 b
5' - 3 1/2"
PILE A-3-5 sq 10'x5'3.5' - 2 1/8" = 1'-0"
6
5' - 3 1/2"
PILE A-3-5 sq 10'x5'3.5' - 1 1/8" = 1'-0"
5' - 3 1/2"
5
CLT 2-3-2 t1
06519 T: 203.401.4400
CLT 2-3-2 b1
E : crodenhizer@columbushouse.org
CONSULTANTS:
12
PILE A-3-5 sq 10'x5'3.5' - 7 1/8" = 1'-0"
5' - 0"
5' - 0"
PILE A-3-5 sq 10'x5'3.5' - 8 1/8" = 1'-0"
6' - 8"
6' - 8"
3
13
CLT 2-3-2 e1
PILE A-3-1 sq 6'8"x5'-1 1/8" = 1'-0"
6' - 8"
CLT 2-3-2 t2
4
1
PILE A-3-1 sq 6'8"x5'-2 1/8" = 1'-0"
CLT 2-3-2 b2
7
PILE A-3-5 sq 10'x5'3.5' - 9 1/8" = 1'-0"
2
PILE A-3-5 sq 10'x5'3.5' - 10 1/8" = 1'-0"
6' - 8"
5' - 0"
PILE A-3-5 sq 10'x5'3.5' - 6 1/8" = 1'-0"
5' - 0"
14
PILE A-3-1 sq 6'8"x5'-3 1/8" = 1'-0"
8
CLT 2-3-2 e2 PROJECT ADDRESS:
PILE A-3-1 sq 6'8"x5'-4 1/8" = 1'-0"
43 Button Street New Haven, CT 06519 PROJECT NAME: Jim Vlock Building Project 2018 SHEET NUMBER:
A8.02 NAME:
CLT TAKEOFF 3 PLY
SCALE:
18' - 7 1/4"
18' - 7 1/4"
CLT 2-5-2 B
18' - 7 1/4"
CLT A-5-1 t
CLT 3-5-1 t
8' - 2 1/2"
CLT B-5-1 b
8' - 2 1/2"
CLT 2-5-2 t
8' - 2 1/2"
5' - 3 3/4"
18' - 7 1/4"
CLT B-5-1 t
CLT A-5-1 b
1/8" = 1'-0"
APRIL 30, 2018
DATE:
YALE SCHOOL OF ARCHITECTURE
CLT 3-5-1 b
180 YORK ST NEW HAVEN, CT 06510
16
PILE D-5-1 1 notch long end 18'7.25"x5'3.75" 1/8" = 1'-0"
1
PILE D-5-1 notch long end 18'7.25"x8'2.5"-1 2 1/8" = 1'-0"
PILE D-5-1 2 notch kitty corner long ends 18'7.25"X8.25" 1/8" = 1'-0"
3
PILE D-5-1 notch long end 18'7.25"x8'2.5"-2 1/8" = 1'-0"
T: 203.500.1669 E : adam.hopfner@yale.edu
CLIENT: COLUMBUS
18' - 7 1/4"
18' - 7 1/4"
18' - 7 1/4"
18' - 7 1/4"
HOUSE
5 8 6 E L L A T. G R A S S O B L V D NEW HAVEN, CT 06519
PILE D-5-1 notch long end 18'7.25"x8'2.5"-3 4 1/8" = 1'-0" 3' - 6 1/2" 8' - 2 1/2"
10 CLT 1-5-1 b1 CLT 1-5-1 b2
18' - 7 1/4"
CLT B-5-2 b
PILE D-5-2 1 notch long end 18'7.25"x8'2.5" 1/8" = 1'-0"
SHEET NUMBER:
CLT 5-F2 3
7' - 6"
PILE D-5-2 2 notch kitty corner long ends 18'7.25"x8'2.5"-5 14 1/8" = 1'-0"
PILE D-5-1 1 notch long end 18'7.25"x7'6" 18 1/8" = 1'-0"
CLT 5-F2 4
PILE D-5-2 2 notch kitty corner long ends 18'7.25"x8'2.5"-6 15 1/8" = 1'-0"
A8.03 NAME:
CLT TAKEOFF 5 PLY 1
SCALE:
37' - 2"
CLT 5-F2 2
CLT C-3-2 b
1/8" = 1'-0"
APRIL 30, 2018
DATE:
8' - 0"
8' - 0"
PROJECT NAME:
18' - 7 1/4"
CLT 5-F1 e
CLT C-3-2 t
PROJECT ADDRESS: 43 Button Street New Haven, CT 06519
Jim Vlock Building Project 2018 18' - 7 1/4"
37' - 2"
CLT 5-F2 1
CLT 5-F1' b
PILE D-5-2 2 notch kitty corner long ends 18'7.25"x8'2.5"-2 11 1/8" = 1'-0"
CLT B-5-2 e
PILE D-5-2 2 notch kitty corner long ends 18'7.25"x8'2.5"-4 13 1/8" = 1'-0"
CLT B-5-2 t
8' - 2 1/2"
CLT C-5-1 b
18' - 7 1/4"
8' - 2 1/2"
6' - 4" 8' - 2 1/2"
CLT 1-5-1 t2
PILE D-5-2 1 notch long end 18'7.25"x3'6.5" 1/8" = 1'-0"
CONSULTANTS:
18' - 7 1/4"
CLT C-5-1 t
8' - 2 1/2"
9
18' - 7 1/4"
PILE D-5-2 2 notch kitty corner long ends 18'7.25"x8'2.5"-3 12 1/8" = 1'-0"
18' - 7 1/4"
CLT D-5-2 e CLT 2-5-2 e
CLT 2-5-2 e
PILE D-5-2 1 notch long end 18'7.25"x3'5.75" 17 1/8" = 1'-0"
CLT A-5-2 b
PILE D-5-2 2 notch kitty corner long ends 18'7.25"x8'2.5"-1 7 1/8" = 1'-0"
PILE D-5-1 sq 18'7.25"x8' 6 1/8" = 1'-0"
18' - 7 1/4"
18' - 7 1/4"
CLT A-5-2 e
CLT 1-5-1 t1
CLT 5-F1 b
E : crodenhizer@columbushouse.org
8' - 2 1/2"
CLT D-5-2 b
PILE D-5-1 notch long end 18'7.25"x8'2.5"-4 5 1/8" = 1'-0"
CLT A-5-2 t
8' - 2 1/2"
CLT C-5-2 B
CLT 5-F1 t
8' - 0"
CLT D-5-2 t
8' - 2 1/2"
8' - 2 1/2"
CLT C-5-2 t
T: 203.401.4400
YALE SCHOOL OF ARCHITECTURE 180 YORK ST NEW HAVEN, CT 06510 T: 203.500.1669
1
PILE C-5-1 2sp long end 37'2"x8'-1 1/8" = 1'-0"
2
PILE C-5-1 2sp long end 37'2"x8'-2 1/8" = 1'-0"
E : adam.hopfner@yale.edu
CLIENT: COLUMBUS
37' - 1"
37' - 1"
HOUSE
5 8 6 E L L A T. G R A S S O B L V D NEW HAVEN, CT 06519
8' - 0"
8' - 0"
T: 203.401.4400
CLT 3-5-2
CLT 5-F1' t
E : crodenhizer@columbushouse.org
CONSULTANTS:
PILE C-5-1 2sp long end 37'1"x8'-1 3 1/8" = 1'-0"
PILE C-5-1 2sp long end 37'1"x8'-2 4 1/8" = 1'-0"
5' - 1 1/2"
31' - 8"
PROJECT ADDRESS:
CLT 1-5-2
5
43 Button Street New Haven, CT 06519
PILE C-5-1 sq 31'8"x5'1.5" 1/8" = 1'-0"
PROJECT NAME: Jim Vlock Building Project 2018 SHEET NUMBER:
A8.04 NAME: SCALE: DATE:
18
â–¡
CLT TAKEOFF 5 PLY 2 1/8" = 1'-0"
APRIL 30, 2018
CLT panels awaiting sanding and final finishes at West Campus.
â–
19
001 _ unrolled section _ seed climate gradient
O S K J S E E D
U V A T N V A U L T
Thermodynamic Reactivity The seed vault project focuses on creating an experiential climactic, three dimensional periodic table for seed collection within the climactically diverse setting of Oskjuvatn, Iceland. Set atop the Viti Crater, the seed vault pulls geothermal energy from below and cold air from above to create an array of temperatures and humidities. Seeds are stored inside small hexagonal pods which are inserted into a wall that varies in thickness as it stretches across the climactic gradient inside -- acting as an insulator, conductor, and protector as its thermal mass changes and engages the surrounding topography.
002 _ transverse section
(section a)
20
â–Ą
003 _ plans
(plan -4 ft.)
(plan -16 ft.)
â–
21
004 _ concept drawings
Tropical Biome
Evergreen Biome
005 _ seed array
1a. kelp 1b. hyacinth 1c. red maple 1d. eastern white pine 1e. spruce 2a. rubber tree 2b. redwood 2c. burr oak 2d. red oak 2e. fir 3a. azalea 3b. river birch 3c. magnolia 3d. cypress 3e.100% joshua tree 4a. palm 4b. white mangrove 4c. kapok 4d. plumeria 4e. cactus
22
â–Ą
006 _ model
On the Ground. Viti Crater. Oskjuvatn, Iceland. The building nestles into an exiisting saddle geometry at the top of the crater
â–
23
001_ axonometric plans
JEAN RENOIR FILM ARCHIVE & LIBRARY Urban Mise-En-Scene This project is a design for an underground film archive constructed with rows of tilt up concrete panels which act as frames. These frames are porous in one viewing direction, but solid from another. As people circumnavigate the plan, they become aware of ‘off-screen’ space, tertiary galleries and offices which archive-goers are only initially aware of through auditory senses. The above ground space is converted into a new public bus stop, exploring the ways in which the bus network collapses the urban framework into a single location where diverse groups of people interact like characters on a stage.
24
□
002_ cut away exploded isometrics
â–
25
003_ renderings
Tertiary spaces provide side galleries and house programming like meeting and study rooms.
26
â–Ą
004_ orthographics
Section a / S: 1” = 24’
Plan (-12’) / S: 1” = 24’
■
27
001_ site plan with tributaries
LAS FLORES COMMUNITY WASTE BROKERS materializing ecologies and economies of waste In Baja California, the Tijuana River flows from South to North. Passing through informal settlements which house refugees, the river acts as a singular municipal service - providing waste disposal for the underserved community. Thus, sediment and waste flows across the border, eventually draining into the Tijuana River Estuary in San Diego, one of the most important wildlife reserves on the West Coast. This project seeks to provide an anticipatory infrastructure which counteracts the canal rich runs through Rancho Las Flores, Tijuana, which only serves to speed up the movement of water, erosion, and waste spread. The project proposes both a series of dispersed infrastructural interventions and a temporal, economic framework through which the system might be implemented. Together, the spatial interventions and the economic model we are proposing constitute the institution of the Las Flores Community Waste Broker. Team project with Page Comeaux.
Site Plan S: 1:20,000
28
â–Ą
002_ site isometric with transects
03
02
01
Linear array of interventions along pre-existing, hardscape canal infrastructure.
â–
29
003_ intervention 07
Sample Intervention: Deposito Depot with workshops and storage.
Section/Elevation S: 1” = 32’
Plan (3’) S: 1” = 32’
30
□
004_ intervention renderings, time scale
B07 8:00 p.m.
B05 5:30 p.m.
B07
B06
B05
B04 1:00 p.m.
B04
B02 8:00 a.m. B03
B02
B01 7:30 a.m. B01
â–
31
Consultants Kristin Hawkins Aaron Martin Ed Stanley
mation
n: Andrew Kim Bridgeport Restorative Justice Center
CT
3/4” = 1’-0”
Systems Integration Kristin Hawkins Aaron Martin Ed Stanley
1 1/2” = 1’-0” Wall Section
1 1/2” = 1’-0”
S Y S T E M S I N T E G R AT I O N C LT b u i l d i n g s y s t e m s This systems integration project, based of the original building designed by Andrew Kim, focused on fusing the practices of restorative justice with regenerative building techniques. Primarily, the focus was on creating a a building with unique experiences and sectional qualities using a regularized framework of glulam and cross laminated timber panels. *
Team: Max Ouellette Howitz and Christine Pan )
(
'
&
%
$
Team Q Rachel LeFevre Max Ouellette-Howitz Christine Pan
Structural Axonometric
S106
%ULGJHSRUW 5HVWRUDWLYH Scale -XVWLFH &HQWHU Project number 001 Drawn by
Author
radiant cooling panel supply air
Winter Azimuth: 72 degrees
radiant cooling panel supply air
6,6 E .ULVWLQ +DZNLQV $DURQ 0DUWLQ (G 6WDQOH\
supply air
supply air / VAV cooling return air under auditorium supply air / VAV cooling
7HDP 4 *
)
(
'
&
%
5DFKHO /H)HYUH 0D[ 2XHOOHWWH +RZLW] &KULVWLQH 3DQ
$
Partial Ele
radiant heating panel supply air
Winter Azimuth: 25 degrees
radiant heating panel supply air supply air
supply air / VAV heating return air under auditorium supply air / VAV heating
(QYLURQPHQWDO 6HFWLRQV
0 6FDOH
3URMHFW QXPEHU 'UDZQ E\
$XWKRU
Section Perspective 32
□
Partial Pla
Bridgeport Restorative Justice Center
3
4
5
6
7
20' - 0"
RB 1
W21X44 10 W 10 x1 0X49
20' - 0"
B
RB 1
W21X44
W21X44
10 X49 W
W21X44
W21X44
10 X49
W18X35
W18X35
Systems Integration
10 X49
W18X35
W
10 X49
W18X35
C
W21X44
W21X44
W
W18X35
8 Steel Truss 4'-6" Deep
D
Rachel LeFevre Max Ouellette-Howitz Christine Pan
20' - 0"
Steel Truss 4'-6" Deep
Team Q
Kristin Hawkins Aaron Martin Ed Stanley
20' - 0"
2
W18X35
W18X35
10 X49
W18X35
T.O. SLAB -0' 6"
1
W
10 X49 W
W21X44
W18X35 8 x 12
W21X44
W21X44
W18X35
W18X35
T.O. SLAB 0' 0"
Kristin Hawkins Aaron Martin Ed Stanley
W
1 A302
W18X35
8 x 12
W18X35
W21X44
W21X44
1 A303
W21X44
W18X35
Systems Integration
Bridgeport Restorative Justice Center
T.O. SLAB 5' - 0"
W21X44
W21X44
W21X44
W21X44
A UP W21X44
Team Q
Steel Truss 4'-6" Deep
E
Rachel LeFevre Max Ouellette-Howitz Christine Pan
Steel Truss 4'-6" Deep
Steel Truss 4'-6" Deep
F
Steel Truss 4'-6" Deep
Steel Truss 4'-6" Deep
G
Long Section
Level 1 Framing Plan
A301 1
2
3
Scale
8
1/16" = 1'-0"
Author
10 x1 0
20' - 0"
Bridgeport Restorative Justice Center
B
20' - 0"
RB 1 10.5x22
10.5x22
10 x1 0
10.5x22
A
10 x1 0
10 x1 0
RB 1
10.5x22
10 x1 0 10 x1 0
10.5x22
10 x1 0
10.5x22
10 x1 0
10 x1 0
10 x1 0
10.5x22 10.5x22
10.5x22
Systems Integration C
Kristin Hawkins Aaron Martin Ed Stanley
20' - 0"
10.5x22
10 X49 W
W
D
20' - 0"
7 ply 10' x 30' Cross Laminated Timber Panel Floor System, TYPICAL
10.5x22
10.5x22
T.O. SLAB 16' - 6"
Team Q
10 X49
Rachel LeFevre Max Ouellette-Howitz Christine Pan
RB 1
W18X35
T.O. SLAB 17' - 0"
Team Q
W
Level 3 17' - 0"
10.5x22
10.5x22
10.5x22 10.5x22
10 X49
Level 5 45' - 0"
Level 4 31' - 0"
S101
7
T.O. SLAB 17' - 0"
10 x1 0
Level 6 58' - 0"
Kristin Hawkins Aaron Martin Ed Stanley
10.5x22
10 x1 0
10 x1 0
10 X49
W18X35
10.5x22
W
Systems Integration
A
RB 1
B
W18X35
C
6
Drawn by
10 X49
D
5
W
E
RB 1
F
4
60' - 0"
Project number 001
10.5x22
CLT bearing on concrete wall
W18X35
G
30' - 0"
S101 1/16" = 1'-0"
W
Bridgeport Restorative Justice Center
30' - 0"
10 x1 0
1
Author
10 X49
Drawn by
30' - 0"
10.5x22
1/16" = 1'-0"
Project number 001
10 x1 0
Longitudinal Section 1/16" = 1'-0"
30' - 0"
10.5x22
Scale
1
30' - 0"
E
Rachel LeFevre Max Ouellette-Howitz Christine Pan
Level 2 5' - 0" Level 1 0' - 0" Level B1 -13' - 0" Level B2 -18' - 0" 1
Section 5 1/16" = 1'-0"
Cross Section 30' - 0"
30' - 0"
30' - 0"
30' - 0"
30' - 0"
Level 3 Framing Plan
60' - 0"
A302 Scale
S103 1/16" = 1'-0"
1
Project number 001 Drawn by
A
B
C
D
E
F
1
Author
2
4
5
6
7
8
Scale
Drawn by
1/16" = 1'-0"
Author
Bridgeport Restorative Justice Center
Bridgeport Restorative Justice Center
Systems Integration
Systems Integration
Kristin Hawkins Aaron Martin Ed Stanley
G
3
Project number 001
S103 1/16" = 1'-0"
Kristin Hawkins Aaron Martin Ed Stanley
1 A304 2 A304
Level 5 45' - 0"
Level 4 31' - 0"
Team Q
Team Q
Rachel LeFevre Max Ouellette-Howitz Christine Pan
Rachel LeFevre Max Ouellette-Howitz Christine Pan
Level 3 17' - 0" Level 2 5' - 0" Level 1 0' - 0" Level B1 -13' - 0" Level B2 -18' - 0" 1
Section 6 1/16" = 1'-0"
Cross Section 1
A303 Scale
Structural Axon
Structural Axonometric
S106 1/16" = 1'-0"
Scale
Project number 001
Project number 001
Drawn by
Drawn by
Author
â–
Author
33
C A R B O N F I B E R M A S O N RY flat packed robotic units Developed for Le Monde Carbon Fiber, this project focused on the creation of complex geometric units which can be agreggated to form columns, screens, and self supporting facades. These units act like lightweight masonry building blocks, capable of generating not only structural integrity but visual interest. The units were developped as flat packed systems where carbon fiber can be woven by a robotic arm across a frame. The frame can then be snapped into place. This unit could also have concrete cast around it, creating dynamic shell systems with reinforcement.
34
â–Ą
â–
35
36
â–¡
â–
37
Brisbane
Abidjan → Manila Abuja → Teresina Accra → Barranquilla Adana → Nicosia Addis Ababa → Maputo Adelaide → Tunis Aguascalientes → Gaborone Aleppo → Mosul Algiers → Perth Almaty → Bishkek Amman → Nicosia Amsterdam → Paris Ankara → Tashkent Antananarivo → Belo Horizonte Arequipa → Amman Ashgabat → Qom Asmara → Lusaka Atlanta → Memphis Auckland → Sydney Austin → Peshawar Baku → Athens Baltimore → Nashville Bamako → Niamey Bandar Lampung → Manaus Bandar Seri Begawan → Melekeok Bandung → Belmopan
Bangkok → Chennai Bangui → Teresina Banja Luka → Dallas Banjul → Bamako Barcelona → Adelaide Barranquilla → Maracaibo Beijing → Tianjin Beirut → Valencia Belfast → Cardiff Belgrade → San Antonio Belmopan → Santo Domingo Benoni → Puebla Berlin → Canberra Bern → San Marino Birmingham → Paris Bishkek → Tashkent Bloemfontein → Dushanbe Bogor → Bandar Seri Begawan Boston → Charlotte Bratislava → Canberra Brazzaville → Kinshasa Bridgeport → Providence
→ Campinas Brussels → Canberra Bucharest → Almaty Budapest → Skopje Buenos Aires → Sydney Buffalo → Louisville Bujumbura → Port-au-Prince Bursa → Adana Busan → Hiroshima Calgary → Lanzhou Cali → Bangui Campinas → Brisbane Canberra → Skopje Cape Town → Perth Caracas → Beirut Cardiff → Montevideo Cartagena → Maracaibo Casablanca → Tripoli Changsha → Nanchang Charlotte → Memphis Chengdu → Antananarivo Chennai → Kaduna Chicago → St. Louis Chisinau → Skopje Chittagong → Tainan Chongqing → Mbabane Cincinnati → Nashville Cleveland → Louisville Cologne → San Marino Colombo → Port Harcourt
Columbus → Louisville Conakry → Monrovia Cotonou → Fortaleza Daegu → Ulsan Daejeon → Gwangju Dakar → Praia Dalian → Qingdao Dallas → Austin Dar es Salaam → Barquisimeto Davao → Paramaribo Denver → Bishkek Dhaka → Khulna Dili → Maracaibo Dnipro → Skopje Dodoma → Hyderabad Dongguan → Shenzhen Douala → Monrovia Dubai → Khartoum Dublin → Leeds Durban → Kigali Edinburgh → Paris Faisalabad → Lahore Fortaleza → Managua Freetown → Conakry Fukuoka → Nanchang Funchal → Rabat Fuzhou → Brisbane George Town → Porto-Novo Georgetown → Paramaribo Glasgow → Cardiff Goyang → Seoul Grand Turk → Willemstad Guadalajara → Lahore Guangzhou → Shenzhen Guiyang → Mbabane Gujranwala → Lahore Gwangju → Ulsan Haiphong → Dhaka Hamburg → San Marino Hangzhou → Osaka Hanoi → Dhaka Harare → Lilongwe
Harbin → Jilin Hartford → Richmond Havana → Yamoussoukro Helsinki → Vienna Hiroshima → Nanchang Ho Chi Minh City → Chennai Hong Kong → Macau Honiara → Colombo Houston → Jacksonville Hyderabad → Bamako Ibadan → Mbuji-Mayi Ilorin → Teresina Incheon → Seoul Indianapolis → Louisville Islamabad → Rawalpindi Istanbul → Rome Jacksonville → Orlando Jerusalem → Los Angeles Jinan → Zibo Johannesburg → Puebla Johor Bahru → Pekanbaru Juba → Ilorin Kaduna → Teresina Kananga → Benin City Kansas City → Dallas Kaohsiung → Tainan Karaj → Qom Kathmandu → Shenzhen Kharkiv → Bucharest
Khulna → Vientiane Kigali → Bujumbura Kingston → Barranquilla Kinshasa → San Salvador Konya → Tashkent Kuala Lumpur → Palembang Kumasi → Mbuji-Mayi Kuwait City → Medina La Paz → Johannesburg Lagos → Panama City Lanzhou → Taiyuan Las Vegas → Phoenix Leeds → Melbourne Libreville → Rangoon Lille → Lyon Lilongwe → Lubumbashi Lisbon → Perth Ljubljana → Virginia Beach London → Melbourne Los Angeles → Hargeysa Louisville → Nashville Lubumbashi → Patna Lusaka → Pune Luxembourg → Montevideo Lyon → Canberra Macau → Shenzhen Malabo → Port Harcourt Malang → San Salvador Manchester → Montevideo
Car te 2 “LA is supposed to feel like Cabo by 2080; does that mean residents of the City of Angels should be prepping for a permanent vacation?.” 1
Mandalay → Hyderabad Manila → Rangoon Maracay → Mandalay Mariehamn → Budapest Marseille → Algiers Maseru → Vereeniging Mashhad → Quetta Mbabane → Nanning Mbuji-Mayi → Abuja Medan → Manaus Melbourne → Port Elizabeth Melekeok → Pago Pago Memphis → Houston Mendoza → Gaziantep Mexico City → Gaborone Miami → Rio de Janeiro Milan → Dallas Milwaukee → St. Louis Minneapolis → Kansas City Minsk → Sofia Mogadishu → Maracaibo Mombasa → Phnom Penh Monaco → Rome Monrovia → Conakry Montevideo → Sydney Montreal → Cincinnati Moscow → Detroit Multan → Kuwait City Munich → Milan Muscat → Jeddah Nagoya → Nanchang Nairobi → Maputo Nanjing → Osaka Nanning → Guangzhou Nashville → Memphis Natal → Phnom Penh New Orleans → Houston New York → Virginia Beach Nicosia → Mosul Nouakchott → Khartoum Novi Sad → Dallas Oran → Casablanca
1 Tierstein, Zoya. “This map shows you what your city will feel like in 2080 and boy, are we in for a treat.” Grist.org. 13 Febuary 2019.
URBAN ANALOGUES m a p p i n g f u t u r eCar teu1 r b a n i s m s In meterology, the difference between the actual temperature and how the temperature feels is called wind chill. In a super effective and clear manner, complex and abstract ManHarbin → Jilin scientific Khulna → Vientiane and physiological phenomena dalay → Hartford → Richmond Kigali → Bujumbura Kingston → Barranquilla Hyderabad Havana → Yamoussoukro are conveyed through use of simile, Kinshasa → San Salvador Manila → giving Rangoon Helsinki → Vienna Maracay → Mandalay Konya → Tashkent Hiroshima → Nanchang Kuala Lumpur → Palembang Mariehamn → Budapest Ho Chi Minh City → Chennai laymen an entry point into information Marseille → Algiers Hong Kong → Macau Kumasi → Mbuji-Mayi Kuwait City → Medina Maseru → Vereeniging Honiara → Colombo which is greatly important to daily life but → Quetta La Paz → Johannesburg Mashhad Houston → Jacksonville Mbabane → Nanning Lagos → Panama City Hyderabad → Bamako Lanzhou → Taiyuan Mbuji-Mayi → Abuja Ibadan → Mbuji-Mayi might otherwise be hard to understand. Medan → Manaus Ilorin → Teresina Las Vegas → Phoenix “New York City, welcome to Arkansas. Minneapolis, say hello to Kansas. And San Francisco, your new home is L.A.” 1
1 Rice, Doyle. “By 2080, global warming will make New York City feel like Arkansas.” USA Today. 12 Febuary 2019.
Incheon → Seoul Indianapolis → Louisville Islamabad → Rawalpindi Istanbul → Rome Jacksonville → Orlando Jerusalem → Los Angeles Jinan → Zibo Johannesburg → Puebla Johor Bahru → Pekanbaru Juba → Ilorin Kaduna → Teresina Kananga → Benin City Kansas City → Dallas Kaohsiung → Tainan Karaj → Qom Kathmandu → Shenzhen Kharkiv → Bucharest
Leeds → Melbourne Libreville → Rangoon Lille → Lyon
Melbourne → Port Elizabeth Melekeok → Pago Pago Memphis → Houston
Lilongwe → Lubumbashi Mendoza → Gaziantep When it comes to climate change, weMexico lack City → Gaborone Lisbon → Perth → Virginia Beach Miami → Rio de Janeiro modes of expressionLjubljana which adequately convey London → Melbourne Milan → Dallas Milwaukee → St. Louis Los Angeles → Hargeysa Louisvillenature → Nashville Minneapolis → Kansas City the abstract yet collective of problems Minsk → Sofia Lubumbashi → Patna Lusaka → Pune Mogadishu → Maracaibo we are faced with.Luxembourg This project proposes Mombasa → Phnom Penh → Montevideo Monaco → Rome Lyon → Canberra Macau → Shenzhen Monrovia the analogue as a method through which to→ Conakry Montevideo → Sydney Malabo → Port Harcourt Malang → San Salvador Montreal → Cincinnati approach representing and discussing issues Manchester → Montevideo Moscow → Detroit Multan → Kuwait City such as climate regions, temperature change, Munich → Milan Muscat → Jeddah Nagoya → Nanchang C a r tgrowth, e 2 population and political/economic Nairobi → Maputo Nanjing → Osaka “LA is supposed to feel like Cabo by 2080; does relationships. Nanning → Guangzhou
that mean residents of the City of Angels should be prepping for a permanent vacation?.” 1
Nashville → Memphis Natal → Phnom Penh New Orleans → Houston New York → Virginia Beach Nicosia → Mosul Nouakchott → Khartoum Novi Sad → Dallas Oran → Casablanca
Qom → Baghdad Quito → Durban Rabat → Tripoli Rangoon → Bissau Rawalpindi → Islamabad Recife → Lagos Reykjavik → Belfast Richmond → Nashville Riga → Vienna Rio de Janeiro → Havana Riyadh → Medina Rome → Adana Rosario → San Antonio Roseau → Benin City Rostov → Skopje Rotterdam → Paris Salt Lake City → Las Vegas Salvador → Recife Samara → Bucharest San Antonio → Austin San Bernardino → Mosul San Diego → Tripoli San Francisco → Lisbon San Marino → Bursa San Salvador → Kaduna Santa Cruz → Mbuji-Mayi Santiago → Nicosia Sapporo → Milan Sarajevo → Dallas Seattle → San Francisco Sendai → Tokyo Seoul → Suwon Shanghai → Osaka Shenzhen → Hong Kong Singapore → Kuala Lumpur Skopje → Austin Sofia → Skopje St. Louis → Dallas St. Petersburg → Sofia Stanley → Edinburgh Stockholm → Budapest Sucre → Mexico City Surabaya → Ho Chi Minh City
Oranjestad → Mogadishu Orlando → Tampa Osaka → Changsha Oslo → Bratislava Ottawa → Pittsburgh Ouagadougou → Bamako Padang → Bandar Seri Begawan Pago Pago → Melekeok Palembang → Medan Palikir → Padang Panama City → Surabaya Papeete → Port Moresby Paramaribo → Bangui Paris → Canberra Pekanbaru → Palembang Philadelphia → Richmond Phnom Penh → Bangkok Phoenix → Baghdad Pittsburgh → Louisville Podgorica → Jacksonville Ponta Delgada → Porto Port-au-Prince → Ilorin Port Elizabeth → Adelaide Port Harcourt → Semarang Port Louis → Miami Port Moresby → Phnom Penh Portland → San Antonio Porto → Durban Porto-Novo → Phnom Penh Prague → Tbilisi Praia → Dakar Pretoria → Monterrey Pristina → Skopje Providence → Charlotte Puebla → Monterrey Pune → Bamako Putrajaya → Medan Pyongyang → Goyang Qingdao → Thimphu
Suva → Pago Pago Suwon → Seoul Sydney → Porto Taichung → Dhaka Tainan → Dhaka Taipei → Santos Tallinn → Bratislava Tampa → Orlando Tbilisi → Bishkek Tegucigalpa → Mandalay Tehran → San Bernardino Teresina → Abuja The Hague → Paris Tianjin → Beijing Tijuana → San Diego Tirana → San Antonio Tokyo → Changsha Toluca → Puebla Turin → Dallas Car te 3 Ulsan → Busan “Cities in lower-income countries are rapidly catching up with the world’s top business capitals. ” Vaduz → Milan Valencia → Mandalay Valletta → Tel Aviv-Yafo Valparaiso → Rabat Vereeniging → Pretoria Vienna → Skopje Vientiane → Kolkata Vilnius → Pristina Virginia Beach → Podgorica Warsaw → Tbilisi Washington → Nashville Wellington → Auckland Willemstad → Oranjestad Windhoek → Gaborone Wuhan → Osaka Xiamen → Brasilia Yamoussoukro → Ilorin Yerevan → Tashkent Zagreb → Louisville Zaria → Abuja Zhengzhou → Maseru Zurich → Milan 1
1 Alfred, Charlotte. “These are the 10 Fastest Emerging Global Cities.” Huffpost.com. 15 April, 2014.
1 Tierstein, Zoya. “This map shows you what your city will feel like in 2080 and boy, are we in for a treat.” Grist.org. 13 Febuary 2019.
Car te 4 “
You have offended us! You have offended the government of Boraqua! You are no longer our sister.” 1
1 Parks and Rec. Season 2, Episode 5, “Sister City.”
38
□
Oranjestad → Mogadishu Orlando → Tampa Osaka → Changsha Oslo → Bratislava Ottawa → Pittsburgh Ouagadougou → Bamako Padang → Bandar Seri Begawan Pago Pago → Melekeok Palembang → Medan Palikir → Padang Panama City → Surabaya Papeete → Port Moresby Paramaribo → Bangui Paris → Canberra Pekanbaru → Palembang Philadelphia → Richmond Phnom Penh → Bangkok Phoenix → Baghdad Pittsburgh → Louisville Podgorica → Jacksonville Ponta Delgada → Porto Port-au-Prince → Ilorin Port Elizabeth → Adelaide Port Harcourt → Semarang Port Louis → Miami Port Moresby → Phnom Penh Portland → San Antonio Porto → Durban Porto-Novo → Phnom Penh Prague → Tbilisi Praia → Dakar Pretoria → Monterrey Pristina → Skopje Providence → Charlotte Puebla → Monterrey Pune → Bamako Putrajaya → Medan Pyongyang → Goyang Qingdao → Thimphu
Qom → Baghdad Quito → Durban Rabat → Tripoli Rangoon → Bissau Rawalpindi → Islamabad Recife → Lagos Reykjavik → Belfast Richmond → Nashville Riga → Vienna Rio de Janeiro → Havana Riyadh → Medina Rome → Adana Rosario → San Antonio Roseau → Benin City Rostov → Skopje Rotterdam → Paris Salt Lake City → Las Vegas Salvador → Recife Samara → Bucharest San Antonio → Austin San Bernardino → Mosul San Diego → Tripoli San Francisco → Lisbon San Marino → Bursa San Salvador → Kaduna Santa Cruz → Mbuji-Mayi Santiago → Nicosia Sapporo → Milan Sarajevo → Dallas Seattle → San Francisco Sendai → Tokyo Seoul → Suwon Shanghai → Osaka Shenzhen → Hong Kong Singapore → Kuala Lumpur Skopje → Austin Sofia → Skopje St. Louis → Dallas St. Petersburg → Sofia Stanley → Edinburgh Stockholm → Budapest Sucre → Mexico City Surabaya → Ho Chi Minh City
Suva → Pago Pago Suwon → Seoul Sydney → Porto Taichung → Dhaka Tainan → Dhaka Taipei → Santos Tallinn → Bratislava Tampa → Orlando Tbilisi → Bishkek Tegucigalpa → Mandalay Tehran → San Bernardino Teresina → Abuja The Hague → Paris Tianjin → Beijing Tijuana → San Diego Tirana → San Antonio Tokyo → Changsha Toluca → Puebla Turin → Dallas Ulsan → Busan Vaduz → Milan Valencia → Mandalay Valletta → Tel Aviv-Yafo Valparaiso → Rabat Vereeniging → Pretoria Vienna → Skopje Vientiane → Kolkata Vilnius → Pristina Virginia Beach → Podgorica Warsaw → Tbilisi Washington → Nashville Wellington → Auckland Willemstad → Oranjestad Windhoek → Gaborone Wuhan → Osaka Xiamen → Brasilia Yamoussoukro → Ilorin Yerevan → Tashkent Zagreb → Louisville Zaria → Abuja Zhengzhou → Maseru Zurich → Milan
â–
39