Portfolio
description
Transcript of Portfolio
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The
Del
ewar
e H
ouse
Mon
olith
Living Wall
Hos
pes:
233
Alle
n St
reet
Link
The
Bund
le
Gat
ed C
omm
unity
Eric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
Supply Air Duct
Entry Ramp
E l e v a t i o n
ERIC J. MULTERARCHITECTUAL PORTFOLIO
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The
Del
ewar
e H
ouse
Mon
olith
Living Wall
Hos
pes:
233
Alle
n St
reet
Link
The
Bund
le
Gat
ed C
omm
unity
Eric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
Supply Air Duct
Entry Ramp
E l e v a t i o n
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The Bundle pg.1Space, Medium, Representation
The Deleware House pg.5Context, Residential
Gated Community pg.7Context, Program, Prison
Monolith pg.13Comprehensive, Mix Use, Office
Living Wall pg.25Concept, Comprehensive, Full Build
Hospes: 233 Allen St pg.29Comprehensive, Concept, Mix Use, Residential
Link pg.35Comprehensive, Boarder Crossing, Terminal, Competition
Construction Drawing pg.39Technical Drawing, Annotation, Construction Drawings
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The Bundle project consisted of taking a variety of items and taping them together in a random matter and then cut in half to reveal a series of spaces and conditions. These spaces were then studied intensively using a variety of techniques and mediums to further understand how to create and understand a space in its entirety. The bundle consisted of a dog bowl, pig bank, whale toy, sponge, recorder, two dif-ferent balls and a ribbed tube. The discovered theme of the bundle was an idea of transparency at various scales and approaches as well as a sense of movement of the objects in the half. A free hand drawing was the first step in understanding the quality of spaces fallowed by a series of models.
The Bundle was thought of as a sold (above) made of a wood, as a series of linear elements (bottom left) made of basswood, and as a series of planes (bottom right) made of paper. Each model explored a con-dition of transparency, density or motion within the original bundle..
1 | Multer
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Hand Drawing
Original Bundle
Multer | 2
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Technology was used as another me-dium to explore the conditions of the bundle. Rhino was used to create a 3d model which was then sliced to al-low closer examination of the spaces within. One slice was then taken and rendered as well as printed by a 3d printer. Views are seen that cannot be observed in the original bundle.
3 | Multer
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Multer | 4
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NSite Influence Curved Bar Division by View
View Upwards View Downward View Straight Ahead
The Deleware House is a housing project designed for Delaware Park in Buffalo New York. The massive park is an Olmstead creation in Buffalo, lined with historic mansions and large museums and art galleries. The site of the house is located on a ridge overlooking the lake, Japanese Gar-dens, Albright Knox Art Museum, Erie County Historical Society and the city beyond that. The site also contains a pedes-trian foot path and located adjacent to a major inner city ex-pressway. The design of the house was meant to push off the ridge and capture the views of the park and gardens with massive windows while keeping a sense of complete privacy. The house turns its windowless back to the urban community behind and uses a single bar and a single circulation to emphasize the single directional view experienced throughout the house.
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NCreating of Window Plains Singular Circulation Final Plan Multer | 6
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CM - General Comercial
R2 - Dweling District
M1 - Light Industrial
M2 - General Industrial
C1 - Nieghborhood Buisness District
C2 - Community Buisness District
R5 - Apartment Hotel District
R4 - Apartment District
NFTA Bus Stop City / Town Line
School
Religious Center
Governemnt
Park
Timothy R. HoguesDemocrat
Thomas J. MazurDemocrat
White
Other
African American
Hispanic
Sloan / Cheektowaga
Sloan / Cheektowaga
Zipcode Line
Sloan - Cheektowaga School District
Property Value 10 - 50 K Property Value 45 - 100+ K
Timothy R Hogues Legislature Thomas J. Mazur Legislature
Median Income $29,800 Median Income $42,600
Bus Route
Site
Residential
Comercial
Industrial
Sloan Municpal/Government
Sloan
LoveJoy
A Gated Community, located on the edge of Buffalos Lovejoy Neighborhood, created a low security prison and suburban housing complex as well as a community destination, serving as a market ar-cade , alley like shopping and service center. The alley lies on the main political and economic line with the prison sitting in Buffalo and the suburban housing and complex re-siding in the adjacent town of Sloan. The two populations face each other as an attempt to help those incarcerated become more familiar with daily life while reminding the public of what could happen. The roof of the arcade and facade of the housing tower take on the rhythm of the lots across the street and create a waving canopy. The re-maining land is given back to the community in an effort to create a large park to extend the services and activities of the gated community.
7 | Multer
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Park Entrance
Park Entrance
Street EntranceStreet Entrance / Bus Stop
To Visitor Center
Going Home
Bingo Night 2nd Floor
Passing Through To homeGiving a Lecture
Prison Visitor
Going To Park
Going To Work
Going To Gym For Activites
Going To Dentist
Dental App.
Wake Up Call
Welcome To Prison
Multer | 8
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Wagner Ave. Elevation
1st Floor 2nd Floor 3rd - 8th Floor
9 | Multer
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PlaygroundPavilion
Basket Ball Court
Tenn
is C
ourt
Pond
Reiman St.
N. O
gden
St.
Wagner Ave.
Parking Lot
NFTA Bus Stop
Lovejoy
Floor PlansScale 1 = 1/128N
Multer | 10
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Reiman St. Elevation
11 | Multer
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Section Through Arcade Section Through Housing
Multer | 12
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Monolith is a design for an architectural office / mixed use building in downtown Buffalo. The design of Monolith is to re-introduce the architect into the city as a mystical and supernatural pres-ence, claiming attention and remaining a mystery to the city of buffalo. Monolith as serves as a mirror and memorial to a city with once great architectural presence. Standing 14 floors and 225 feet tall, the tower is clad seamlessly by super reflective black glass. The building, while covered in glass, lacks windows and instead, the top most occupied floors, draw light from a light well / atrium that cascades from the roof of the building. Natural light also is reflected through offset panels that line the walls of each floor which also work to prevent traditional appearance of an office building at night, playing true to the mystery by almost dissolving in the night.
Washington Street
S i t e P l a nEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
Storage
Boiler
Air Intake
Entry Ramp
Fan / Coil Unit
Entrance
Basement Floor (Entry Level)
V o l u m e M o d e l sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1:2:3First three real, whole numbersBased off Triagle geometry
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
V o l u m e M o d e l sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1:2:3First three real, whole numbersBased off Triagle geometry
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
V o l u m e M o d e l sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1:2:3First three real, whole numbersBased off Triagle geometry
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
13 | Multer
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The volume of the building is a simple rectalinear shape that is meant to mimic the standard shape of a traditional office buildings. the volume is also a more dominant shape against nature and with a set of proportions that are suggested to be the most visually appealing. Ratios are a historical design principal perfected by the egyptians and Greeks. The buildings volume will no doubt be a rectalinear volume deigned classically through proportions/ratios that create the desired effectof a monolithic structre and in considerationof the site and program size of the building.
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet 12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
10 Floors31,500 square feet
2001: Space Odyssey
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
0,1,1,2,3,5,8,13,21,34,55,89,144,233,377,610,...
2,4,16,256,....
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1
1 2 3
1
5
12
3 5
1:2:3First three real, whole numbersBased off Triagle geometry
Length and Highth Overlay
Length and Width overlay
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
Golden Ratio
N
N
NN x 3
N x 7
V o l u m e S c h e m e sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
The volume of the building is a simple rectalinear shape that is meant to mimic the standard shape of a traditional office buildings. the volume is also a more dominant shape against nature and with a set of proportions that are suggested to be the most visually appealing. Ratios are a historical design principal perfected by the egyptians and Greeks. The buildings volume will no doubt be a rectalinear volume deigned classically through proportions/ratios that create the desired effectof a monolithic structre and in considerationof the site and program size of the building.
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet 12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
10 Floors31,500 square feet
2001: Space Odyssey
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
0,1,1,2,3,5,8,13,21,34,55,89,144,233,377,610,...
2,4,16,256,....
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1
1 2 3
1
5
12
3 5
1:2:3First three real, whole numbersBased off Triagle geometry
Length and Highth Overlay
Length and Width overlay
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
Golden Ratio
N
N
NN x 3
N x 7
V o l u m e S c h e m e sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
The volume of the building is a simple rectalinear shape that is meant to mimic the standard shape of a traditional office buildings. the volume is also a more dominant shape against nature and with a set of proportions that are suggested to be the most visually appealing. Ratios are a historical design principal perfected by the egyptians and Greeks. The buildings volume will no doubt be a rectalinear volume deigned classically through proportions/ratios that create the desired effectof a monolithic structre and in considerationof the site and program size of the building.
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet 12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
10 Floors31,500 square feet
2001: Space Odyssey
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
0,1,1,2,3,5,8,13,21,34,55,89,144,233,377,610,...
2,4,16,256,....
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1
1 2 3
1
5
12
3 5
1:2:3First three real, whole numbersBased off Triagle geometry
Length and Highth Overlay
Length and Width overlay
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
Golden Ratio
N
N
NN x 3
N x 7
V o l u m e S c h e m e sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
The volume of the building is a simple rectalinear shape that is meant to mimic the standard shape of a traditional office buildings. the volume is also a more dominant shape against nature and with a set of proportions that are suggested to be the most visually appealing. Ratios are a historical design principal perfected by the egyptians and Greeks. The buildings volume will no doubt be a rectalinear volume deigned classically through proportions/ratios that create the desired effectof a monolithic structre and in considerationof the site and program size of the building.
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet 12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
10 Floors31,500 square feet
2001: Space Odyssey
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
0,1,1,2,3,5,8,13,21,34,55,89,144,233,377,610,...
2,4,16,256,....
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1
1 2 3
1
5
12
3 5
1:2:3First three real, whole numbersBased off Triagle geometry
Length and Highth Overlay
Length and Width overlay
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
Golden Ratio
N
N
NN x 3
N x 7
V o l u m e S c h e m e sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
The volume of the building is a simple rectalinear shape that is meant to mimic the standard shape of a traditional office buildings. the volume is also a more dominant shape against nature and with a set of proportions that are suggested to be the most visually appealing. Ratios are a historical design principal perfected by the egyptians and Greeks. The buildings volume will no doubt be a rectalinear volume deigned classically through proportions/ratios that create the desired effectof a monolithic structre and in considerationof the site and program size of the building.
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet 12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
10 Floors31,500 square feet
2001: Space Odyssey
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
0,1,1,2,3,5,8,13,21,34,55,89,144,233,377,610,...
2,4,16,256,....
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1
1 2 3
1
5
12
3 5
1:2:3First three real, whole numbersBased off Triagle geometry
Length and Highth Overlay
Length and Width overlay
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
Golden Ratio
N
N
NN x 3
N x 7
V o l u m e S c h e m e sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
The volume of the building is a simple rectalinear shape that is meant to mimic the standard shape of a traditional office buildings. the volume is also a more dominant shape against nature and with a set of proportions that are suggested to be the most visually appealing. Ratios are a historical design principal perfected by the egyptians and Greeks. The buildings volume will no doubt be a rectalinear volume deigned classically through proportions/ratios that create the desired effectof a monolithic structre and in considerationof the site and program size of the building.
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet 12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
10 Floors31,500 square feet
2001: Space Odyssey
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
0,1,1,2,3,5,8,13,21,34,55,89,144,233,377,610,...
2,4,16,256,....
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1
1 2 3
1
5
12
3 5
1:2:3First three real, whole numbersBased off Triagle geometry
Length and Highth Overlay
Length and Width overlay
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
Golden Ratio
N
N
NN x 3
N x 7
V o l u m e S c h e m e sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
The volume of the building is a simple rectalinear shape that is meant to mimic the standard shape of a traditional office buildings. the volume is also a more dominant shape against nature and with a set of proportions that are suggested to be the most visually appealing. Ratios are a historical design principal perfected by the egyptians and Greeks. The buildings volume will no doubt be a rectalinear volume deigned classically through proportions/ratios that create the desired effectof a monolithic structre and in considerationof the site and program size of the building.
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet 12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
10 Floors31,500 square feet
2001: Space Odyssey
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
0,1,1,2,3,5,8,13,21,34,55,89,144,233,377,610,...
2,4,16,256,....
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1
1 2 3
1
5
12
3 5
1:2:3First three real, whole numbersBased off Triagle geometry
Length and Highth Overlay
Length and Width overlay
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
Golden Ratio
N
N
NN x 3
N x 7
V o l u m e S c h e m e sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
The volume of the building is a simple rectalinear shape that is meant to mimic the standard shape of a traditional office buildings. the volume is also a more dominant shape against nature and with a set of proportions that are suggested to be the most visually appealing. Ratios are a historical design principal perfected by the egyptians and Greeks. The buildings volume will no doubt be a rectalinear volume deigned classically through proportions/ratios that create the desired effectof a monolithic structre and in considerationof the site and program size of the building.
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet 12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
10 Floors31,500 square feet
2001: Space Odyssey
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
0,1,1,2,3,5,8,13,21,34,55,89,144,233,377,610,...
2,4,16,256,....
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1
1 2 3
1
5
12
3 5
1:2:3First three real, whole numbersBased off Triagle geometry
Length and Highth Overlay
Length and Width overlay
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
Golden Ratio
N
N
NN x 3
N x 7
V o l u m e S c h e m e sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
V o l u m e M o d e l sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1:2:3First three real, whole numbersBased off Triagle geometry
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
V o l u m e M o d e l sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1:2:3First three real, whole numbersBased off Triagle geometry
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
V o l u m e M o d e l sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1:2:3First three real, whole numbersBased off Triagle geometry
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
V o l u m e M o d e l sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1:2:3First three real, whole numbersBased off Triagle geometry
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
V o l u m e M o d e l sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1:2:3First three real, whole numbersBased off Triagle geometry
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
V o l u m e M o d e l sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1:2:3First three real, whole numbersBased off Triagle geometry
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
V o l u m e M o d e l sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1:2:3First three real, whole numbersBased off Triagle geometry
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
V o l u m e M o d e l sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
1:4:9Squares of the 1st three numbersalso the dimensions used for the monolith
13 Floors26,325 square feet
14 Floors37,800 square feet
6 Floors10,800 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet
12 Floors21,600 square feet12 Floors
48,600 square feet
9 Floors36,450 square feet
10 Floors27,000 square feet
1:1:1Basic square and geometry
1:1:2Fibonnaci sequenceany number the the sum of the 2 before it
1:3:7Average Human proportions
1:2:4Each number is twice the previousNprevious x 2
1:2:3First three real, whole numbersBased off Triagle geometry
2:4:16Squares Each dimension is a square of the previous
1:5:12First three pentagonal numbers
1:3:5geometry of building a squarebased off units
1:3:7 - Average Human Proportions14 Floors, 37,800 Sq.Ft.
1:2:3 - 1st three, whole real numbers9 Floors, 36,450 Sq.Ft.
1:2:4 - Nprevious X 212 Floors, 48,600 Sq.Ft.
2:4:16 - Squares of Previous12 Floors, 21,600 Sq.Ft.
1:5:12 - Pentagonal Numbers12 Floors, 21,600 Sq.Ft.
1:4:9 - Squares of the 1st 3 numbersDimensions of the Monolith13 Floors, 26,325 Sq.Ft.
1:1:1 - Basic Square Geometry6 Floors, 10,800 Sq.Ft.
1:3:5 - Units of a Square10 Floors, 27,000 Sq.Ft.
Multer | 14
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Elevation: 225
Archive
Library / Resource Library
IT SupportNetworking / SystemsPrinting
Meeting SpacesBathrooms
General Staff Offices
Reception Waiting Area
Studio Space
Studio Space
Meeting SpacesStorage
Studio Space
Studio Space
KitchenLounge
Workshop / Storage
Lobby / Entry
Mechanical Wall
S e c t i o n S e c t i o nEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
Supply Air Duct
Entry Ramp
The section reveals the use of color on the interior to allow the windowless spaces to remain vibrant and serve the traditional number of a floor, working through red at the entry to blue and the Top of the office building. The Light well is also seen, slop-ing from the roof down the reception area below.
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Mechanical Wall
Eric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
Supply Air Duct
Entry Ramp
E l e v a t i o n
I n t e r n a l R e n d e r sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
Highly Reflective panels, Light well, Facing toward south wall
lower floors, light supplied only by panels. all surfaces are concrete
bottum of the light well in the reception(8th floor). light reaches all the 14th floor
I n t e r n a l R e n d e r sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
Highly Reflective panels, Light well, Facing toward south wall
lower floors, light supplied only by panels. all surfaces are concrete
bottum of the light well in the reception(8th floor). light reaches all the 14th floor
I n t e r n a l R e n d e r sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
Highly Reflective panels, Light well, Facing toward south wall
lower floors, light supplied only by panels. all surfaces are concrete
bottum of the light well in the reception(8th floor). light reaches all the 14th floor
Lower Floors: Light Supplied Only By Panels. All Surfaces are Concrete
Bottom of the Light Well in the Reception (8th Floor)
Highly Reflective Panels, Light WellFacing South Wall of Reception
Multer | 16
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2nd Floor:
Workshop/Storage spaces. 3150 sf.
3rd Floor:
Library / Resource Floor,3150 sf.4 Occupants
4th Floor:
Archive / Storage3150 sf.
5th Floor:
I.T. Support,12 Occupants2480 sf.
Printing,200 sf.
Networking / Systems470 sf.
6th Floor:
Meeting Spaces,2578 sf.24 Occupants
Bathrooms400 sf.
7th Floor:
General Staff Offices.3150 sf.36 Occupants
8th Floor:
Reception.3150 sf.2 Occupants + Visitors
9th Floor:
Studio Offices2794 sf.17 Occupants
Networking / Systems
I.T. Support
I.T. Support
Prin
ting
Prin
ting
Archive / Storage
Studio Space
Reception / Waiting Area
Library / Resource Library
Meeting Rooms
Meeting Rooms
Workshop / Storage
Meeting Rooms
Bath
Room
Bath
Room
General Office Area
Studio Space
Studio Space
Studio Space
Meeting Rooms
Meeting Rooms Meeting Rooms
Storage
Kitchen / Lounge
10th Floor:
Studio Offices. 2613 sf.16 Occupants
11th Floor:
Meeting Spaces.2174 sf.22 Occupants
Storage200 sf.
12th Floor:
Studio offices.2100 sf.11 Occupants
13th Floor
Studio Offices.1757 sf.12 Occupants
Overall Statistics
14 Floors 15 High 225 Overall Building Hieght
Exposed Concrete Structure Site Cast Concrete Cores: 1 Thick Precast Concrete Planks Precast Concrete Vierendeel Truss Facade Precast Concrete Vierendeel Truss (lightwell)
Occupancy 38222 sf. average 100-150 Occupants
Facade Double Skin Black Glass Hung Facade Outer Skin acts as Rain Screen at Vent Location(s) Highly Reflective
14th Floor:
Lounge / Kitchen. 1384 sf.Up to 24 Occupants (seated
Above 14th Floor:
open to below
Roof Plan:
Glass covered light well
7th Floor: General Staff Offices 13th Floor: Studio Offices
6th Floor: Meeting Spaces 12th Floor: Office Spaces
5th Floor: I.T. Support, Printing, Systems, Networking
11th Floor: Meeting Spaces, Storage
4th Floor: Archive, Storage 10th Floor: Studio Offices Roof: Glass Covered Light Well
3rd Floor: Library,Resource
2nd Floor: Workshop, Storage 8th Floor: Reception 14th Floor: Lounge, Kitchen
9th Floor: Studio Offices Above 14th Floor: Open To Bellow
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Archive
Library / Resource Library
Express Elevator (visitor Use) Lobby - ReceptionIT Support
Networking / SystemsPrinting
Meeting SpacesBathrooms
General Staff Offices
Reception Waiting Area
Studio Space
Studio Space
Meeting SpacesStorage
Studio Space
Studio Space
KitchenLounge
Workshop / Storage
Lobby / Entry
S e c t i o nEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
Supply Air Duct Return Air Duct
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Exit Leads to Entry Ramp
Exit opens to Exterior Through Hidden Door
1
2
F i r e E g r e s sEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
1
2
Fire exits work through the stairs in each core. The exits proceed to the basement (Entrance) Level and then exit using the massive entry ramp.
Structure for the tower is through site cast concrete. The two main cores provide the main support and foundation. The two wider walls are also site cast but could be pre-cast, and work as a vierendeel truss. The floor plates are able to span the en-tire distance and interlock into the truss walls.
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S t r u c t u r eEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
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Geo Thermal Wells
Boiler Unit (Back-up Only)
Fan and Coil Unit
Exast Air DuctsFloors b-8: air recycledFloors 9-14: air exausted
Supply Air
1
1
2
2
3
3
4
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V e n t i l a t i o nEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
Geotheral Wells
Mechanical Wall: Fan/Coil Unit Boiler Filter Intake
Return Duct
Supply Duct
Supply Shaft Return Shaft
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P e r f o r m a n c eEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
SummerSpring/Fall
Floors 8-14 Exaust Air DirectlyTo The Outdoors Through Ducts and Fan Units That Push Air Directly to The Outside. Fans Can Turned Offand On When Needed. Hidden By RainScreen Type Facade.
Floors Entry-7 Return Air BackInto The System To Be ReconditionedAnd Recycled. Air Is Drawn Down Underground and Pulled Along Side TheSupply Where It Reenters The System.
Air is A Continuous Flow SystemThat is Kept At The Same Temperature all Year Through The Use of Geo-ThermalWells and A Small Boiler Unit. The Air Is Pushed Constantly and Louvers At Each Can Be Controlled to Allow More or LessAir Into The Floor. The Same Control OccursWith The Exaust/Return Shaft. ThisFeature is Also For Fire Protection.
Air is Brought Into The System andConditioned, Filtered ETC. Througha Wall Like Construction on The Other Side of The Site. This Is Also Where AirIs Returned and Put Back Into The System.The Wall Contains The Fan Unit, Coils, FilterSmall Boiler, Storage For MainteneceEquiptment and Intake Louvers
Geotheral Wells
Fans
Winter
Fans
Operable Louvers
Exaust Fans With Rain Screen Facade
Ventilation
Ventilation
Natural Light
Multer | 22
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D a y V s. N i g h tEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
23 | Multer
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F i n a l M o d e lEric MulterThe MonolithARC 302 SPRING 2013Prof. SERGIO LOPEZ-PINEIRO
Final Model With Facade
Final Model Revealing Cores and Outer Wall
Final Model Revealing Outer Walls and Floor Plates
Sectional View of Upper Floor
View of Interior Lightwell and Balconies
View From Washington St.
View From Main St.
Final Model Revealing Cores and Outer Wall
Final Model Revealing Inner Walls and Floor PlatesSection View of Upper Floor
View of Inner Lightwell and Balconies
View From Washington Street
View From Main Street
Final Model With Facade
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Living Wall was a project that worked from form/concept to planning/refining to full scale build/instal-lation. The form began as a single mass with one line, one cut and one transition. The project was to be thought of as a micro dwelling for at least six people. Each studio divided into two groups of roughly four students to plan and build the dwellings at full scale. As a team, the responsibility of craft and structural planning was very important to ensure the final piece could stand for two years at a local public sculpture park where all projects were connected into a living wall of micro dwellings. This particular project was built in four parts, the two lower legs and the upper mass (two pieces). Nine people could occupy the spaces created inside and out. The night of installation, students spent the night in each others projects.Other Group Members: Carl Stanbro, Bo-Asheley Brindley, Christine Liou.
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Hospes: 233 Allen St. is a residential complex for the Allen District of Buffalo, NY. A hostel ac-commodates a transient population and apartment dwellings serve a more permanent population. The two differ in stay duration, but are both comprised of transitioning singles. The form is monolithic and carves at different scales: the courtyard, the urban entrance, the unit collective and the individual. Materi-ally, the building consists of two facades. The outer street facades are a concrete mixed with copper slag, meant to turn greenish blue, to relate to the historic use of copper along Allen and the harshness of the city. The inner courtyard facades consist of horizontal wood slats to create a more welcoming and warm space as the courtyard serves as the lobby for all programs of the building (no program has direct ac-cess from the street). The first floor is glass with programs that bring the permanent, public and transient populations together. These programs are a cafe, retail and automart (Vending style convenience store).Project Partner: Christine Liou
W E
Public
Permanent
Transient
Retail Hostel CafAutomart
Single Mass Commercial Zone Courtyard Urban Cuts
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Urban Cuts
46The word hospitality derives from the Latin hospes,meaning host, guest, or stranger. Hospes is formed from hostis, which means stranger or enemy (source of hostile).
transient population, and apartment dwellingstransitioning singles. The form is monolithic and carved at multiple scales: the courtyard, the urban entrance, the unit collective, and the individual. Materially the buildings consists of two facades. The outer street facades are concrete mixed with copper slag meant to turn greenish blue, creating a relationship to the historic use of copper along Allen Sreet as well as the harshness of urban life. The inner courtyard facades consist of horizontal wood slats to create a more welcoming and warm space as the courtyard serves as the lobby for all
populations mix together. The programs are a caf, retail, and automart (vending style convenience store).
HOSPES: 233 ALLEN STREET
Allen Street
Colle
ge S
tree
t
Allen Steet
Colle
ge S
teet
46The word hospitality derives from the Latin hospes,meaning host, guest, or stranger. Hospes is formed from hostis, which means stranger or enemy (source of hostile).
transient population, and apartment dwellingstransitioning singles. The form is monolithic and carved at multiple scales: the courtyard, the urban entrance, the unit collective, and the individual. Materially the buildings consists of two facades. The outer street facades are concrete mixed with copper slag meant to turn greenish blue, creating a relationship to the historic use of copper along Allen Sreet as well as the harshness of urban life. The inner courtyard facades consist of horizontal wood slats to create a more welcoming and warm space as the courtyard serves as the lobby for all
populations mix together. The programs are a caf, retail, and automart (vending style convenience store).
HOSPES: 233 ALLEN STREET
Allen Street
Colle
ge S
tree
t
Allen Steet
Colle
ge S
teet
Unit/Collective Cuts Individual Cuts Roof Garden Multer | 30
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Single Apartment
Hostel Room
Hostel
Apartment Suites
Single ApartmentsApartment Suite (2 levels)
-
N S
Apartment Suite
Level One Level Two
1 Bedroom ApartmentHostel Bedroom
ALLEN ST. ELEVATION
N S
Apartment Suite
Level One Level Two
1 Bedroom ApartmentHostel Bedroom
ALLEN ST. ELEVATIONAllen St. Elevation
2nd Floor 3rd Floor 4th Floor
Multer | 32
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46Courtyard Facade Allen Street FacadeAutomart
Concrete with Copper Slag
Wood Slats
Exterior FacadesConcrete with Copper Slag
Courtyard FacadesHorizontal Wood Slats
Automart
33 | Multer
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46Courtyard Facade Allen Street FacadeAutomart
Concrete with Copper Slag
Wood Slats
The corner of the building at Collage and Allen Streets was built at 1=1/4 scale .
Hospes was built at 1=1/32 scale within context to further explore its presence in the neighborhood.
Multer | 34
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Link is a boarder station ferry terminal that connects Spain to Morocco as well as Europe to Africa via its location in Tarifa, Spain on the shores or the Strait of Gibraltar. its prominent location at the western end of the Mediterranean defines it as a monumental beacon in the worlds busiest sea way. Tarifa, south-ern-most point of Europe, has a population of 18,000. The town has a variety of attractions for vacationing visitors: ancient roman ruins, beaches, a castle, and old fortifications. However, because Africa is only 10 miles away to the south, there are many commercial ships and local authorities must be aware of illegal trafficking Project Partner: Christine Liou
EU
Bus
Bus
nonEU
EU
Bus nonEU
Bus
AD
A
35 | Multer
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EU
Bus
Bus
nonEU
EU
Bus nonEU
Bus
AD
A
Multer | 36
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To address the sensitive traffic issues, the vehicular circulation is raised to create a defined and secure traffic flow on and off ferry boats, while creating a large open space below an umbrella-like pavilion. Within this open space, pedestrians can move freely to seek shade offices, ticketing, tourist information, a caf, and a gift shop. A canopy structure shades the vehicular traffic from the hot arid climate and appears to float above the elevated road deck. Suspended by cables from two masts, the canopy is visible from Africa and ships passing through the strait of Gibraltar. This canopy over the vehicular traffic addresses the Mediterranean climate of warm summers and mild winters. It is long-span steel adapted to an organically shaped grid, clad with steel sheeting to make it appear lighter. By contrast, the elevated vehicular circulation is held up by tree-shaped steel structural components that span up to 80, and 10 to 30 in height. These tree-shaped components delineate a path for pedestrians. Pedestrians are free to move about underneath the road structure. It is a large space open to the elements, but still protected from sun and rain. Ticketing, duty free shopping, and other leisurely activity provide distractions for the bored pedestrian waiting to board the ferry.
37 | Multer
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A. Tree Support Structure that holds elevated road deck
B. Cable Connector that support the canopy
C. Canopy structure and detail of light/air holes
C.
B.
A.
Multer | 38
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Construction Drawings from two different built projects are shown to show an understanding technical drawing and annotation.
1 Foundation for perimeter wall36 inch wide x 12 inch thick site cast concrete strip footing with 3-#5 reinforcement bars 24 inches o.c.
2 External wall below grade12 x 16 x 8 CMU inner wythe with 3-#5 vertical reinforcement grouted solid at corners, open-ingsand 48 inches o.c. horizontal joint reinforce-ment at 16 inches o.c.Vapor barrier8 x 16 x 8 CMU outter wythe with 3-#5 vertical reinforcement grouted solid at corners, open-ingsand 48 inches o.c. and horizontal joint rein-forcement at 16 inches o.c.
3 External wall at ground level12 x 8 x 16 CMU inner wythe with 3-#5 vertical reinforcement grouted solid at corners, open-ingsand 48 inches o.c. and horizontal joint rein-forcement at 16 inches o.c.Vapor barrier2 inches rigid insulation2 inch air space8 x 8 x 4 CMU outer wytheWaterproof coating
4 Ground oorCompacted earth ll3 inches compacted sand Vapor barrier4 inch thick site cast concrete slab with mesh reinforcement
5 External wall at upper oors12 x 16 x 8 CMU inner wythe with 3-#5 vertical reinforcement grouted solid at corners, open-ings and 48 inches o.c. and horizontal joint reinforcement at 16 inches o.c. vapor barrier2 inches rigid insulation2 inch air space8 x 8 x 4 CMU outer wytheWaterproof coating
6 First oorFloor2 x 10 joists at 16 inches o.c. inch plywood suboor nailing 6 inches o.c. inch wood strip nish ooring (Bedroom)Tile ooring (Bathroom)Ceiling2 x 4 joists at 16 inches o.c. inch gypsum board
7 Second oorFloor2 x 10 joists at 16 inches o.c. inch plywood suboor nailing 6 inches o.c. inch wood strip nish ooring (Dining Room)Tile ooring (Kitchen)Ceiling2 x 4 joists at 16 inches o.c. inch gypsum board
8 Third oorFloor2 x 10 joists at 16 inches o.c. inch plywood suboor inch wood strip nish ooring (Bedroom)Tile ooring (Bathroom)Ceiling2 x 4 joists at 16 inches o.c. inch gypsum board
9 Roof2 x 8 rafters at 16 inches o.c. inch plywood sheathingBuilt-up roof membraneCeiling2 x 4 joists at 16 inches oc with 4 inches batt insulation betweenvapor barrier inch gypsum board
10 Window at ground storySite cast concrete sill8 inch bond beam lintel with 2-#5 reinforce-ment 8 x 8 x 4 glass block grouted
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3 4 51 2
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5/5
Croead HouseClark & Menefee Architects
Eric Multer Mike Mieszczanski Trenton Van Epps
1 Foundation for perimeter wall36 inch wide x 12 inch thick site cast concrete strip footing with 3-#5 reinforcement bars 24 inches o.c.
2 External wall below grade12 x 16 x 8 CMU inner wythe with 3-#5 vertical reinforcement grouted solid at corners, open-ingsand 48 inches o.c. horizontal joint reinforce-ment at 16 inches o.c.Vapor barrier8 x 16 x 8 CMU outter wythe with 3-#5 vertical reinforcement grouted solid at corners, open-ingsand 48 inches o.c. and horizontal joint rein-forcement at 16 inches o.c.
3 External wall at ground level12 x 8 x 16 CMU inner wythe with 3-#5 vertical reinforcement grouted solid at corners, open-ingsand 48 inches o.c. and horizontal joint rein-forcement at 16 inches o.c.Vapor barrier2 inches rigid insulation2 inch air space8 x 8 x 4 CMU outer wytheWaterproof coating
4 Ground oorCompacted earth ll3 inches compacted sand Vapor barrier4 inch thick site cast concrete slab with mesh reinforcement
5 External wall at upper oors12 x 16 x 8 CMU inner wythe with 3-#5 vertical reinforcement grouted solid at corners, open-ings and 48 inches o.c. and horizontal joint reinforcement at 16 inches o.c. vapor barrier2 inches rigid insulation2 inch air space8 x 8 x 4 CMU outer wytheWaterproof coating
6 First oorFloor2 x 10 joists at 16 inches o.c. inch plywood suboor nailing 6 inches o.c. inch wood strip nish ooring (Bedroom)Tile ooring (Bathroom)Ceiling2 x 4 joists at 16 inches o.c. inch gypsum board
7 Second oorFloor2 x 10 joists at 16 inches o.c. inch plywood suboor nailing 6 inches o.c. inch wood strip nish ooring (Dining Room)Tile ooring (Kitchen)Ceiling2 x 4 joists at 16 inches o.c. inch gypsum board
8 Third oorFloor2 x 10 joists at 16 inches o.c. inch plywood suboor inch wood strip nish ooring (Bedroom)Tile ooring (Bathroom)Ceiling2 x 4 joists at 16 inches o.c. inch gypsum board
9 Roof2 x 8 rafters at 16 inches o.c. inch plywood sheathingBuilt-up roof membraneCeiling2 x 4 joists at 16 inches oc with 4 inches batt insulation betweenvapor barrier inch gypsum board
10 Window at ground storySite cast concrete sill8 inch bond beam lintel with 2-#5 reinforce-ment 8 x 8 x 4 glass block grouted
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3 4 51 2
5/5
5/5
Croead HouseClark & Menefee Architects
Eric Multer Mike Mieszczanski Trenton Van Epps
1 Foundation for perimeter wall36 inch wide x 12 inch thick site cast concrete strip footing with 3-#5 reinforcement bars 24 inches o.c.
2 External wall below grade12 x 16 x 8 CMU inner wythe with 3-#5 vertical reinforcement grouted solid at corners, openingsand 48 inches o.c. horizontal joint reinforcement at 16 inches o.c.Vapor barrier8 x 16 x 8 CMU outter wythe with 3-#5 vertical reinforcement grouted solid at corners, openingsand 48 inches o.c. and horizontal joint reinforcement at 16 inches o.c.
3 External wall at ground level12 x 8 x 16 CMU inner wythe with 3-#5 vertical reinforcement grouted solid at corners, openingsand 48 inches o.c. and horizontal joint reinforcement at 16 inches o.c.Vapor barrier2 inches rigid insulation2 inch air space8 x 8 x 4 CMU outer wytheWaterproof coating
4 Ground floorCompacted earth fill3 inches compacted sand Vapor barrier4 inch thick site cast concrete slab with mesh reinforcement
5 External wall at upper floors12 x 16 x 8 CMU inner wythe with 3-#5 vertical reinforcement grouted solid at corners, openings and 48 inches o.c. and horizontal joint reinforcement at 16 inches o.c. vapor barrier2 inches rigid insulation2 inch air space8 x 8 x 4 CMU outer wytheWaterproof coating
6 First floorFloor2 x 10 joists at 16 inches o.c. inch plywood subfloor nailing 6 inches o.c. inch wood strip finish flooring (Bedroom)Tile flooring (Bathroom)Ceiling2 x 4 joists at 16 inches o.c. inch gypsum board
7 Second floorFloor2 x 10 joists at 16 inches o.c. inch plywood subfloor nailing 6 inches o.c. inch wood strip finish flooring (Dining Room)Tile flooring (Kitchen)Ceiling2 x 4 joists at 16 inches o.c. inch gypsum board
8 Third floorFloor2 x 10 joists at 16 inches o.c. inch plywood subfloor inch wood strip finish flooring (Bedroom)Tile flooring (Bathroom)Ceiling2 x 4 joists at 16 inches o.c. inch gypsum board
9 Roof2 x 8 rafters at 16 inches o.c. inch plywood sheathingBuilt-up roof membraneCeiling2 x 4 joists at 16 inches oc with 4 inches batt insulation betweenvapor barrier inch gypsum board
10 Window at ground storySite cast concrete sill8 inch bond beam lintel with 2-#5 reinforcement 8 x 8 x 4 glass block grouted
39 | Multer
Croffead HouseClark & Menefee Architects
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SPECIFICATION OUTLINE
1 Foundation12 x 32 concrete footing
8 Stem wall at footing #5 rebar @ 16 o.c.
2 First Floor Foundation
2 crushed gravel2 sand
2 R-10 ridgid insulation
3 First Floor1-4 raised floor system
18 interior columns w/ 8 #8 vertical rebar and #4 spiral ties
4 Concrete Frame for First Floor1-6x2-8 concrete beams supports raised floor system1-6x4 concrete beam connects to concrete access floor
5 Concrete Frame for Second Floor2-9x3 concrete beam on interior column2-10x3 concrete beam on exterior column
roller shade
vapor barrier4 concrete slab on grade
2 concrete topping with fiber mesh reinforcement
6 First Floor Wall
aluminum angle connection
C.M.U wall assemblymetal studs 16 O.C.
batt sinsulation between studsverticle rienforcement rebar
9 Second Floor WallC.M.U wall assemblymetal studs 16 O.C.
batt sinsulation between studsverticle rienforcement rebar
spandrel panelsealant and backer rod
2x2 aluminum angle to finish curtain wall system
2.5 concrete topping slab7 Second Floor Assembly
8 hollow-core concrete slab1-4 raised floor system
curtain wall8 Second Floor Wall
roller shadealuminum curtain wall system
single ply vented roofing membrane10 Roof Assembly
4 R-30 ridgid insulation2.5 concrete topping slab
precast concrete planks#5 reinforcement
Vapor Barrier
continuous roofing membrane11 Roof Edge
stacked wood andsheet metal gutterangled metal I beam connection for sun shading device
1 ridgid insulationflashing membrane
P.T. wood edgemetal edge flashing
drip edge on undersideconcrete lip / hollowcore cap
mullions placed 5 apart12 Curtain Wall
mullions are an aluminum storefront systemsystem includes operable windows
steel collumns 10 O.C. with supports for sunshading devicesteel collumns are bolted to the foundation and roof
sunshading device is 10 x 2 x 2 prefab steel gratessunshading device is bolted to steel collumns
3 rows of sunshading devices occur
Substructure
Superstructure
Pierce County Environmental Services Office BuildingMiller Hull Architects
Eric Multer, Matthew Kreidler, Phoebe Sumulong, Mike Mieszczanski
Scale 3/4 = 1
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