PORTFOLIO
THOMAS YAZZIE | UNIVERSITY OF ARIZONA | COLLEGE OF ARCHITECTURE + LANDSCAPE ARCHITECTURE PROJECT 1 NAME
00 THOMAS EDISON YAZZIE, II PROFESSIONAL 2016-Present
520-332-0688 3131 E. Fairmount, Apt C. Tucson, AZ 85716
@ tyazzie@email.arizona.edu
OBJECTIVE
Currently in transition to begin a Project Manager/Designer role for a new administration building for the Drexel Heights Fire District. My duties will involve me working in conjunction with engineering consultants as well as coordinating design strategies with a firm principal.
• Bomb Build-Up Facility (Revit) - Glendale, AZ
Prepared the 30% Design Development package with coordination with engineering consultants and Luke Air Force Base. The project is a new building with an exterior shade structure on top of a new concrete slab that will house Air Force technicians that work on inactive explosive devices.
+ University of Arizona - CAPLA - B.Arch Minor - American Indian Studies
• Vector Space HQ (Revit, Lumion) - Tucson, AZ
• CAPLA Professional Phase Student - (Fall 2018. Capstone/5thYear) Mexico City Studio and Pima County Flood Control Studio • Harold S. Pederson Scholarship Recipient (Fall 2018) • Downtown Tucson 2050 Exhibit - Chicago Store. Tucson, AZ (Spring 2018) • ARC 397m - Material Fabrication II CAPLA Exhibit - (Spring 2018) • Native SOAR Member (2008-2009) 2009 Mentor of the Year • First Year Scholars Participant (2007-2008) • New Start Program Participant (Summer 2007)
Revit Autocad Rhino Lumion Illustrator Acrobat
Photoshop Sketchup InDesign Formit Bluebeam
3DS Max Grasshopper Rhinocam
REFERENCES + References upon request.
• College Avenue Medical Office (Revit, Lumion) - Milwaukee, WI Prepared the schematic design drawings and renderings under the supervision of WSM’s principal architects for a new medical office building. The project process started from sketches from the principal which I translated into a digitally modeled building in Revit. There was coordination with the Milwaukee WSM branch for code and parcel compliance. 2012-Present
SOFTWARE EXPERTISE
Prepared the photo and video renderings using a Revit to Lumion work-flow for a RFP bidding project. Our firm was competing with two other firms in hopes to attain a new 95,000 SF manufacturing building and headquarters for a rocket launch company.
+ American Valet - Lead Valet. Desert Diamond Casino - Tucson, AZ
2017-Present
2015-2017
2010-2013 2017-2019
EDUCATION
• Habitat for Humanity Design Competition - First Place (Fall 2017) Designed and prepared construction documents for an affordable three bedroom home for a family in southeastern Tucson, Arizona.
Prepared the schematic design package and currently working on the construction documents as well as monitoring construction administration tasks like submittals and RFI coordination. The project is a tenant improvement project for an audio/visual company that is transitioning into an existing building shell.
• Drexel Heights First District Admin (Autocad, Revit) - Tucson, AZ
Originally from a small community on the Navajo Nation, I find design inspiration from the regional context as well as existing socio-cultural relationships within the built environment. I strive to utilize my culturally sustainable upbringing to contribute design strategies that weave craft, collaboration, and coexistence into the architectural fabric of a project. In addition, actively participating in collaborative environments and sharing knowledge as well as learning new ideas in order to grow professionally and personally.
+ Pima Community College - Computer Aided Drafting & Design Revit Technician Certificate
+ WSM Architects - Architectural Intern. Tucson, AZ Selected Projects: • Modern Studios T.I. (Autocad, Revit, Lumion) - Marana, AZ
+ Revit/Design Consultant - Independent Contractor. Tucson, AZ
Managed private party events as well as been a consistent employee at a casino in Tucson, AZ for five years. Other contracted business typologies I have worked as a valet include hospitality (hotel), hospitals, and weddings.
Offered contracted services to individuals who need a one-on-one interaction/tutoring of the Autodesk Revit interface and work-flows.
CONTENTS
05
C.I.C.
04
AGUA STREET SCAPE
03
CONCRETE BASKET
02
WELLNESS PAVILION
01
TUCSON 2050
05 04 03 02 01
01
LOCATION: DOWNTOWN TUCSON, AZ (CONGRESS DISTRICT) PROJECT TYPE: SUSTAINABLE URBAN DISTRICT
TUCSON 2050
01 TUCSON 2050
SECTION PERSPECTIVE
location: Congress District. Downtown Tucson, AZ typology: Sustainable Urban District partners: Jeremy Goodman, Jason Sciarotta The Downtown Tucson 2050 Project’s vision was to achieve year 2050 carbon and water neutrality targets without sacrificing either liveability or project growth in downtown Tucson, Arizona. It was a multi-year collaboration that offers a replicable model for academia, practice, and the public sector to join together to envision bold solutions to some of our largest urban challenges: climate adaptability, local resiliency, and future liveability. This work was conceived as a book that would showcase multiple downtown Tucson districts in one cohesive prospective study. The project shown are spreads taken directly from the book which was produced, edited, and conceived by myself and two other colleagues. As a trio, we tackled the most urban district of downtown Tucson - Congress District. The examples shown are prototypical building blocks that in theory could be deployed in varying city urban blocks. Each Building Block was investigated metrically to produce numbers and calculations that would measure the sustainability of our urban designs.
14
A - Green Economy
B - Mixed Use Hotel
Adaptively reusing parking structures to provide local agriculture and local economy.
Large scale economy providing office, retail, and residential spaces within the same footprint.
C - Cultural Alley
D - Shade Canopy
Linking the historic and modern components of Tucson with a dynamic space.
Historic preservation that also allows for solar harvesting.
E - Road Infiltration
F - Rooftop Garden
Roadway that filters storm-water through semi permeable surfaces.
Residential Tower with rooftop garden for local produce.
05 04 03 02 01
Congress Street Share Congress Street is closed to vehicular traffic providing a pedestrian and bicycle friendly transport through the heart of the congress district.
collaborative drawing with J. Goodman & J. Scairotta
15
2050 Building Blocks Combined Urban Farm Whist providing jobs centered around sustainable green economy, the building block implements local agriculture for the public.
Low to High Density This taxonomy focuses on the human scale and preserving the historic street front. Keeping the building tectonics below three stories along the major pedestrian road maintains the small town vibe while the larger scale business responds to the larger scale buildings in the back. Shade Canopy This prototype focuses on completely preserving the historic taxonomy present on the site. A solar shade Ramada allows for small scale agriculture on the roof.
High Rise Mixed Use Towers This building block focuses on integrating large and small scale economy while respecting and emphasizing the cultural identity of Tucson.
22
05 04 03 02 01
23 collaborative drawing with J. Goodman & J. Scairotta
VISUALIZATIONS Urban Park
Adaptability
MASTER PLAN CONGRESS
Green infrastructure within the urban core of downtown will promote the usage of sustainable practices through a delineation of hard materials that will otherwise contribute to heat island leading the downtown area into a more adaptable environment in the future.
The Congress district of Downtown Tucson serves as the birth place of Tucson’s downtown. Locations such as The Congress Hotel, Fox Theatre, and the Rialto Theatre, brought people from across the nation into Tucson causing a chain reaction that led to present day downtown. With that being said, we honored the history present in the congress subdistrict by preserving historic facades and keeping the human scale along the street as undisturbed as possible. This is accomplished through increased density that is offset from the street and buffered with the typical two story street-front building typology. Restoring Congress Street to a pedestrian only corridor will bring the subdistrict into a more walkable era of downtowns.
Equity
Downtown Tucson
Public open space becomes a necessity that will need to be incorporated into the urban fabric of downtown Tucson as density increases. The adjacency to large and small scale economies will promote a diverse demographic in a public space.
Sub-District Boundary Waterways Building footprint Energy-Water Hub Nexus Green Infrastructure Open Space Pedestrian Only Corridors Protected Bike and Pedestrian Path
5
5
4
12
VISUALIZATIONS Rialto Block
Identity Throughout the time-line of Tucson, the Rialto block has served as the nexus of activity of downtown. By preserving the structural integrity, scale, and historical character, the Rialto block will maintain it’s cultural significance while incorporating technological advances.
On-Site Production Light will be captured and sent to the micro grid battery.
Prosperity
Plazas This plaza focuses on creating an intimate area for people.
With historical preservation and adaptive re-use, the Rialto block will continue to thrive and provide space for local businesses, large scale economies, entertainment, and cuisine.
Rainwater The rainwater is collected and reused as grey water.
Human Comfort Human proportions are maintained by respecting the historic storefronts while separating future high-rise development from the street front.
5
Adaptive Reuse Advisory An insurance company will provide autonomous vehicle insurance.
Adaptively reusing the existing shell of historic buildings solidifies Tucson’s identity while providing new space for growth in downtown.
Residential Smaller apartments will be placed above historic stores.
Museum This museum will display the culture of Tucson and how it has changed. 31
8
VISUALIZATIONS Shade Structure
Sustainability The framing of the shade structure will carry renewable energy sources that will power the urban block. In addition, it will shade the historic buildings that are being adaptively reused.
Plaza This plaza is located on the second floor of a historic area.
Accessibility
On-Site Production Light will be captured and sent to the micro grid battery.
The pedestrian corridor running through the main access of the congress subdistrict acts as an accessible route connecting neighboring districts.
Rainwater The rainwater that is collected is reused as grey water.
Facade Preservation Preservation of historic facades maintains the cultural identity of Tucson.
5
Solar Economy Medical
Small economy can take advantage of sustainable solar infrastructure and supply it to public.
This block can accommodate a physical therapy office.
Living Infrastructure The roof structure will provide space for neighborhood gardens.
Tertiary Road This smaller street administers access to bikes. 29
10
05 04 03 02
02
WELLNESS PAVILION
LOCATION: TUCSON, AZ (FT. LOWELL PARK) PROJECT TYPE: SUSTAINABLE DEPLOYABLE PAVILION
02 WELLNESS PAVILION location: Ft Lowell Park. Tucson, AZ typology: Sustainable Deployable Pavilion partner: Andrea Reyes
AERIAL YOGA
This pavilion is designed to be a temporary structure. In order for this project to encompass sustainable encroachment, we needed to be cognizant of how the materials will be utilized, erected, and disposed. Therefore, this pavilion proposal will be fully deployable using a modular structure that can be assembled for temporary use and thusly, be disassembled and transported for future use.
MEDITATION
2
1
Every space is designed for four specific yoga exercises. These defined areas are all supported by an independent A-frame structural system. A skin membrane will drape the framework and act as the feature material of the structure. Each fabric skin differs depending on the sunlight intensity of the yoga type being used.
YOGA
3
4
Each structure is assembled using 24 prefab scissor trusses. Each structure has the necessary amount of trusses to construct two 600sf homes. This project expresses sustainability through the lifecyle of its materials. The intention for this Wellness Pavilion is to reutilize the trusses to construct 16 low-income transitional A E R Ifamily A L Y homes O G A Safter P A Cit’s E intended use of deployment.
ACRO YOGA
MEDITATION SPACE
1
2
A2.0 | PLAN
PROJECT 2 |FINAL ARC422| CARR
ANDREA REYES|THOMAS YAZZIE
A9.0 | ELEVATION
PROJECT 2 |FINAL
A8.0 | ELEVATION
05 04 03 02
Shading Fabric Slightly transparent lightweight fabric
Keystone Strap Truss Module
Velco straps that brace the truss modules together
Wooden keystone pin that is strapped to the bottom of the bottom of the truss apex frame
Premanufactured scissor truss
Water Barrels Used to anchor the structure and be transportable
Anchor Plates
Truss Shoes
Flat metal plates attached to the barrels and truss shoes
Custom fabricated metal shoes that attach the A C R O Y O G A S P A C E truss modules with the anchor plate
YOGA SPACE
3
4
elevation drawings by Andrea Reyes A7.0 | ELEVATION
PROJECT 2 |FINAL
A6.0 | ELEVATION
PROJECT 2 |FINAL ARC422| CARR
D B A
F E
C
5’-0”
5’-0”
G
5’-0”
5’-0”
TYPICAL PREFAB SCISSOR TRUSS
PREFAB SCISSOR TRUSS MODULATED
PREFAB SCISSOR TRUSS ASSEMBLED
H
05 04 03
03
PROJECT TYPE: MATERIAL FABRICATION
CONCRETE BASKET
mold assembly
10 3/4”
PROTOTYPE 1
7 1/4”
mold
isometric
7 1/4”
mold assembly
mold
PROTOTYPE 1
PHASE II : PROTOTYPE 2
10 3/4”
7 1/4”
5”
5”
4 1/2”
13 1/2”
isometric
SHOP DRAWING
SHOP DRAWING
This project consisted of designing a vessel using a specific form finding technique: rubber casting. After multiple iterations, a final prototype was produced using a CNC wood mold for the rubber casting and a final jig for the concrete pouring. The intention was to simulate a porous “woven basket” texture that was brought about by the CNC drill bit.
7 1/4”
PROTOTYPE A : Phase 1
bubble wrap
typology: Material Fabrication materials: Concrete, Rubber, Wood technology: CNC, Form Finding
isometric
form
03 CONCRETE BASKET
bubb
4 1/2”
1/2”
A pint of Smooth-On Vytaflex 30 Urethane Rubber was used for the pour. Equal 1:1 ratios of the A and B is required per the specifications from Vytaflex. Mold release was applied to the mold prior to pouring.
CNCmdf MDF cnc
Rubberrubber poured into the CNC MDF poured mold into the cnc
PHASE II : PROTOTYPE 2
rubber Rubber cast releasedcast for Prototype 2 A pint of Smooth-On Vytaflex 30 Test released for
used for the pour. Equal 1:1 ratio
mdf mold
pattern 1
prototype 2 per test the specifications from Vytafl
applied to the mold prior to pouri
13”
pattern 2
pattern 1 1
rubber poured into the cnc mdf mold
13 1/2”
3
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7 2
cnc mdf
4 oz
1 cap 1 pinch 4 oz
4
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1
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2
Once the rubber dried, it was released from it’s mold. Fragments of rubber were left in places where not enough polyacrilic was used. Consider using two coats of polyacrylic for the next iteration. Also, consider CNC’ing a new mold with tapered geometry.
There was not enough rubber to pour all three molds. Wooden dowels were used to dam the rubber and allowed to dry for 16 hours.
3
1 pinch
1 cap
2
1
0 16 oz
fiber water Cement-All Mix sand
POUR 1
plasticizer
1
rubber cast released for prototype 2 test
3
0
cnc mdf
2
4
5
6
Malformed geometries from bad release from mold.
7
16 oz
pattern 3
fiber
POUR 1
13 1/2”
Cement-All Mix sand
13”
pattern 2
water
plasticizer
pattern 3
PHASE III : FINAL PROTOTYPE
rubber poured into the cnc mdf mold
PHASE III : FINAL PROTOTYPE
rubber cast released for prototype 2 test Pattern 1
Pattern 2
There was not enough rubber to pour all three molds. Wooden dowels were used to dam the rubber and allowed to dry for MOLD : SEAL
14 3/8
PROTOTYPE B : Phase 2
4
5
6
1
1/4 2
1/4 1/8 1/4
3 3/16
7
3 3/16
1 cap 1 pinch 4 oz
3
rubber cast released for prototype 2 test
3
16 oz
After designing the mold and assembling the form work in Rhino, the precision of Rhino vs. reality would be tested. In Rhino, the dimensioning and layering worked. However, learning from the past Rhino Isometric prototypes, I understood that I needed to Design leave room for error and mistranslation from the CNC to MDF form work. Thus the reasoning for having two patterns of varying sizes. Also, the main design challenge was the addition of the bottom rubber mold. Prior to pouring the concrete, there was an understanding that the bottom addition would potentially not turn The triangle portions of the mold out as expected.
RhinoCAm Isometric Design
was designed to taper to be able to release easier from the concrete.
3
4
5
6
7
8
4 oz 1 cap 1 pinch 4 oz 16 oz
0
water Cement-All Mix sand
4” Coupling Mother Mold 7
Bottom Rubber Mold
MOLD : SEAL Acetate Mold
Pattern 2
4” Coupling Mother Mold
To achieve the stepped pattern in the MDF mold, the CNC was Main Rubber Mold programmed to Step-down 5 times to an overall distance of Bottom Rubber1/4”. Mold The step aesthetic was to simulate the layering of weaving Acetate patterns. Mold To achieve the stepped pattern in the MDF mold, the CNC was programmed to Stepdown 5 times to an overall distance of 1/4”. The step aesthetic was to simulate the layering of weaving patterns.
Formwork Assembled
9 10 11 12 13
During the Prototype 2 process, I learned that prior to pouring the rubber, you must seal the MDF to prevent the urethane rubber from adhering to the wood. Since the MDF is porous, it should go through a weatherproofing process to seal the mold.
Form-work Assembled When purchasing the Vytaflex product, I was suggested this sealing agent. I decided to give it a try for this final pour. One thing to note is that it has wax-like tendencies and clumps. Apply with care.
1
2
3
4
5
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1 pinch
1/4 cap
2
Pattern 2
Malformed geometries from bad release from mold.
Main Rubber Mold
0 16 oz
fiber water Cement-All Mix sand plasticizer
POUR 1
plasticizer
1
Pattern 1
RhinoCAm Isometric Design
05 04 03
6
The triangle portions of the mold was designed to taper to be able to release easier from the concrete.
PHASE III : FINAL PROTOTYPE
fiber
4
smaller inside triangle than Pattern 2. Also, one of the bottom circles was designed 5 slightly bigger to leave room for error.
Once the rubber dried, it was released from it’s mold. Fragments of rubber were left in places where not enough polyacrilic was used. Consider using two coats of polyacrylic for the next iteration. Also, consider CNC’ing a new mold with tapered geometry.
Area to be trimmed
Form Work Design Reflection:
POUR 2
tworubber patterns vary There was notThe enough to pour all in three molds. Wooden dowels usedtriangle terms of the were internal to dam the rubber and allowed to dry for dimension. Pattern 1 has a 16 hours. Ø4 3/8
1/4
Pattern 1
Ø4 3/8
Rhino Isometric Design
plasticizer fiber water
2
1/8 5/16
rubber poured into the cnc mdf mold
0
Cement-All Mix sand
POUR 1
1
3/16
6
9 3/4
cnc mdf
3/1
This release time only took less than 5 minutes. I trimmed the edges of the mold using a box cutter and slowly pulled it away from the mold. No problems at all. Note: Waxy residue left from the Sonite Wax. 7
PROTOTYPE B : FINAL MODEL The Prototype 3 achieved all my goals from Prototype 2: administer a tapered edge condition on the triangles, attach a base that shares the same aesthetic as the sides, and provide a seam connection between the rubber ends. You can see the evidence from the clay in the photo. Also, I sanded the top lip edge to get a smoother surface.
05 04 03
Evidence from the form-work is seen throughout the inside of the prototype. The outer ring indentation at the bottom is the coupling mother mold lip. The stepped pattern from the rubber mold can be seen inside the triangles. Also, small air bubbles made it’s way to the bottom of the concrete and left empty voids.
What’s interesting about the bottom piece is that it looks entirely different in plan than the rest of the prototype. It’s simple and provides a sturdy base for multiple usage.
05 04
04
LOCATION: TUCSON, AZ (CAMINO MIRAMONTE) PROJECT TYPE: COMPLETE STREET SYSTEM
AGUA STREET SCAPE
04 AGUA STREET SCAPE
Craycroft
Alvernon
Oracle
Agua Street Scape is a neighborhood street network typology that is designed to retain stormwater runoff within the Miramonte Neighborhood along Camino Miramonte. The intention is to passively harvest on-site stormwater runoff for vegetation and infrastructure enhancement. Along with water retention, the unique infrastructure improvements will increase the Miramonte Neighborhood presence within the Tucson community as well as strengthening the community outdoor interactions.
Campbell
location: N. Camino Miramonte. Tucson, AZ typology: Complete Street System partner: Amal Anoohi consultant: Pima County Flood Control
Grant
Speedway
MIRAMONTE NEIGHBORHOOD
Broadway
LEGEND Minor Washes
LEGEND
Major Washes
Christmas Wash
Streets
Christmas Watershed Neighborhood Site
River
Flood Zone
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Kit of Parts A
BASINS AND BERMS
1
2
curb condition basin
3
roundabout berm
CURB CUTS
B
4
sidewalk and road berm
5
natural berm
curb side berm
1
C
SHADE AND LIGHTING
D
MATERIAL
2
non permeable concrete
3
permeable concrete
E
PATHS
2
berm cut
drain cut
1
trees
2
3
street light
4
solar street light
pavement reflectors
1
2
bike path
pedestrian path or sidewalk
perforated steel
F
SIGNAGE AND SEATING
MI
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permeable pavement
1
RA M O NTE
neighborhood sign
2
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street sign
NEW
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KITare OF typological PARTS : NEIGHBORHOOD BLOCKS pieces that show an existing parcel condition with infrastructure from the Kit of Parts. The blocks depict appropriate for the Option List shown. Infrastructure Listan example assembly that areInfrastructure BASINS
INFRASTRUCTURE
1
BASINS AND BERMS PATHS LIGHTING
BERMS
SIGNAGE/SEATING SHADE BASINS BERMS PATHS LIGHTING Specific locations for each Kit of Part varies per specific parcel location. All infrastructure options are shown only for conceptual clarity.
INFRASTRUCTURE Typologies
Curb
Retention
Natural
Roundabout
Street
Bike
Pedestrian
Solar
Neighborhood Sign
Reflectors
Street Sidewalk Typologies Signs Seats
HIGH OPTION
HIGH OPTION
EXISTING
EXISTING
Curb Natural
Retention
Natural
KIT OF PARTS: OPTIONS
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Street
Bike
1
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2
curb condition basin
Street Signs
3
roundabout berm
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ST
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pavement reflectors
D
ET
2
4
solar street light
SIGNAGE AND SEATING MI
4
solar street light
MATERIAL
STRE
MI
ST OR
M
RE
ST FIR
70
ET
ING
street berm
ET
AY DW
cat’s eye
RE
ST
NO
IST
EE
ET
D
IR
80
SIDE
MI
E
E
RE
ST
T
EE
ND
24
PIP
solar street
E. seating F.
UL
EE
STR
EE
R ST
S
RE
TH
B.
B.
F.
NE
EE
CO
SE
CA
NT
curb condition
E
solar street
F.
D
NE
2
PIP
E
UL
OR
WTH HA
’
NT
MO
SP
S
ND
0 47
bike path
E
2
E
RA
ST OR
NE
CO
SE
’
70
MI M
MO
M ONT
IS
JO
T
EE
T R EEST STR ST
FIR
24
RA
ST OR
R
T
MI
ING
IR A
B. retention
T EE
ST
NO
IST
M
B. retention
EE
ST
FIR
ING
street berm
RE
ST
NO
street berm IST
B.
NG
EX
MI
curb condition
B.
1
IG
3
street light
D
CURB C CUTS
E 2
2
curb condition basin 1 berm curb side
5
natural berm
PR
PR
E
B.
O
3
permeable concrete
ES
D CK
BL
W NE
ED
O OP
M
M ONT
PATHS
curb cut
A.
2
non permeable concrete
2
A
1
OC MATERIAL locations Specific locations for each Kit of Part varies per specific parcel infrastructure E.All infrastructure BLlocation. All Specific T for each Kit of Part varies per specific parcel location. EEshown Rare options only for conceptual clarity. T W S options are shown only for conceptual clarity. E E D I S N ED S O OP N PR N 1
KIT OF PARTS: OPTIONS
trees
BASINS AND BERMS
SHADE AND non LIGHTING permeable concrete
drain cut
1
Natural
Theblocks infrastructure shown Nshown assembly will be deployed throughout the entire street. The blocksPATHS The infrastructure assembly will be deployed throughout the entire street. The IG the areS typological pieces that show an existing parcel condition with infrastructure from the Kit of are typological pieces that show ancurb existing from Kit of neighborhood cut parcel condition with infrastructure E 1 2 1 blocks depict an example assembly that are appropriate for the Option shown. E. sign A. assembly that are appropriate for theDOption Parts. The blocks depict an example shown. K Parts. The berm cut
drain cut
SIGNAGE/SEATINGMATERIAL SHADE
NeighborReflectors hood Sign
Solar
2
berm cut
1
RA M O NTE
neighborhood sign
2
street sign
2
sidewalk seating
MASTER PLAN
05 04 THIRD STREET
SPEEDWAY BLVD
2480’
E NT M
MO IRA
LEGEND FOURTH STREET
Electrical Poles 2ND STREET Hydrants Stormwater Drains Existing Trees
Roof Gravel/Earth Pedestrian Path Bike Path New Indigenous Tree Exterior Lighting Side Street Basin Retention Basin
LEGEND
INFRASTRUCTURE Street Access
Electrical Poles Hydrants Stormwater Drains
HAWTHORNE STREET
Existing Trees
Existing Landscaping Roof Gravel/Earth Pedestrian Path Bike Path New Indigenous Tree Exterior Lighting
Street Median Basin
Side Street Basin
Roundabout Basin Street Curb Basin
Street Median Basin
FIFTH STREET
JONES BOULEVARD
Existing Landscaping
CAMINO
INFRASTRUCTURE Street Access
BOULEVARD
2470’
FIRST STREET
JONES
NOT IN SCOPE
EDGEMONT
CREST DRIVE
NOT IN SCOPE
Retention Basin
THIRD STREET
Roundabout Basin Street Curb Basin
40’
160’
ROAD SECTIONS 18’
40’
18’
MEABLE ROAD PER
0% Existing Street Condition
1
8’
5’
5’
12’
5’
12’
5’
5’
8’
MEABLE ROA D PER
New Typical Street Condition - Median
8’
5’
5’
12’
5’
60%
3
2
12’
5’
5’
8’
MEABLE ROA D PER
4
New Typical Street Condition - Seating & Existing Access Drives
5’
25%
access drive
26’
5’
MEABLE ROA D PER
25% New Side Street Condition 0’
10’
20’
section 30’ drawings by Amal Anoohi
3
1
5’
5’
12’
5’
12’
5’
5’
8’
access drive
4
5’
05 04
3
2
8’
2
26’
5’
1
33
2 0’
10’
44
CONCRETE 01
20’
30’
ETE CR
02 PE
EABLE CON RM
TI PA T H I N FILT R A
CONCRETE 01
O
ID
S
E
EW
ALK
I N FILT R
I AT
O
ETE CR
BIK
02 PE
EABLE CO N RM
N
B
IK
N
03 P
ENT EM
ABLE PA ME V ER
E PAT H 03 P
ENT EM
ABLE PA ME V ER
BE
RM
IO I N F ILT R AT
N
03 P
SID E
WA L K
L EE
RATED S FO T ER
4
3
detail drawings by Amal Anoohi
photoshop rendering by Amal Anoohi
05
05
LOCATION: TUCSON, AZ (UNIVERSITY OF ARIZONA) PROJECT TYPE: COLLABORATION LIBRARY
C.I.C.
W
W
T. YAZ ZI E
W
W
W
W
ASSIGNMENT 05 CENTER FOR INFORMATION AND COLLABORATION 4. ARCHITECTURAL RESOLUTION W
W
W
X
location: University of Arizona. Tucson, AZ typology: Collaboration Library
W
W
W
W
W
W
W
X
X
W
ARC401.PETERSON.CHA massing concept
service
library
October 1,2012
Issued for:
Architecture (west)
Construction Administration
Architecture (east)
X
X
UA Center for Infomation and Collaboration University of Arizona - Tucson, Arizona
art & museum of art
X X
W
Electrical & Computer Engineering
Schaefer (Center for Creative Photography) X
X
X
X
W
W
music
Fluid Dynamics Research Lab
Civil Engineering
W
W
X
W
Coconino Hall
X
Speech & Hearing Sciences
Harvill
vertical transportation
gallery
Library Collections Platform 3 (19.75' X 20.25')
Lib Pla (17
Library Collections Platform 1 (17' X 20.75')
library
D
METAL E administration
work spaces
exterior plaza
parking
A1.0
T. YAZ ZI E
CONCRETE
T.Yazzie Architecture
T. YAZ ZIE T.Yazzie Architecture
DECEMBER 10,2012
October 1,2012
Issued for:
2 South
Elevation
0.50
1 North 3 West
Elevation
4 East
Elevation
material color exploration (east facade)
conference r medium wo study carrels service library collec (platform 1-6
150 ft.
72 ft.
Elevation
typical bay (east facade)
Scale:
Scale:
Sheet TItle:
Sheet TItle:
A2.0
A3.0
1’=1/8”
136.5 ft.
1.00
2 South
Elevation
function:
1.50
1.50
Elevation
level tw
20.00
TOTAL
8.00
1 North
Construction Administration
1.50
panel and window opening distribution (west facade)
Issued for:
121 ft.
1’=1/4”
COMPLETE ENVELOPE
1’=1/4”
1’=1/16”
Key Plan
Elevations
3 West
4 East
Elevation
north elevation
east elevation
UA Ce nter for Infomation and Collaboration University of Arizona - Tucson, Arizona
Construction Administration
UA Ce nter for Infomation and Collaboration University of Arizona - Tucson, Arizona
UA Ce nter for Infomation and Collaboration University of Arizona - Tucson, Arizona
service
Site Plan
Construction Administration
H
B
Library Collections Platform 2 (17' X 20.75')
Sheet TItle:
Issued for:
G
auditorium
C
Scale:
October 1,2012
2
A
parking
1”=40’
T.Yazzie Architecture
Cafe
BRICK
W
T. YAZ ZI E
Auditorium
1
MATERIAL OTHOGRAPHIC EXPLOSION
T.Yazzie Architecture
The Center for Information and Collaboration is meant to be a hub of shared knowledge for the University of Arizona Campus. The project is a library typology that houses the information for the College of Architecture, College of Photography, and College of Engineering. The goal was to unite the three educational disciplines with a built environment for collaborative learning. Rather than splitting the library collections separately, the organizational structure dispersed the medium (book collections) around a central ramp/platform loop system that allows the user to slowly navigate throughout the collections upward/ downward within the library.
gallery
Elevation
LIBRARY COLLECTIONS: south elevation
west elevation
Scale:
1’=1/16”
Sheet TItle:
Parking P
05 62'-0"
KEYNOTES
22'-0"
Fire Stair
10'-6"
4'-6"
8'-0"
BRICK WALL ELEVATORS (EXTENDS FROM LEVEL 2 OF THE PARKING GARAGE TO THE ROOF)
OPEN EXTERIOR PLAZA (BENEATH MAIN LIBRARY SPACE).
T. YAZ ZIE
15'-0"
CONCRETE WALLS
ENTRANCE GROVE (PALO VERDE TREES)
AUDITORIUM. 300 SEAT OCCUPANCY. BRICK WALL EXTERIOR CONCRETE STAIR. 6” RISE-1’RUN.
FLOOR SLAB ABOVE GLASS CURTAIN WALL
002
A4.0 2
010
29'-4"
39'-9" 16'-9"
60'-0"
007 008 009 010
CONCRETE COLUMNS. DIMENSIONS: 1.5’ X 1.5’
UP
001 002 003 004 005 006
A2.0
T.Yazzie Architecture
December 10,2
9'-8"
Issued for:
Construction Administratio
22'-0"
001 007 Auditorium Lobby
6'-0"
6"
5'-6"
6'-3"
6'-0"
3'-0"
6'-3"
3'-0"
6'-0"
6'-3"
5'-6"
6'-0"
008
002 1 A4.0
9'-9"
43'-0"
10'-0"
5
1'-6"
1'-6"
27'-9"
24'-0"
20'-0"
1 A4.0
27'-0"
3'-7"
20'-0"
6'-0"
3'-0"
6'-3"
3'-0"
9'-10 1/2"
004
40'-1"
9'-10 1/2"
10'-0" 10'-0"
005
Cafe
2 A4.0
9'-10 1/2"
10'-0"
Elevators
003
Scale:
1’=1/8”
6"
Office
6'-3"
9'-9 1/2"
Office
10'-0"
12'-9"
18'-8 3/4"
Breakout and Coffee Room
1
19'-2 3/4"
9'-4 1/4"
Servers
20'-0"
IT
8'-10 1/4"
2
12'-9"
010
10'-0"
41'-3 3/4"
24'-9"
19'-6"
10'-0"
12'-5"
9'-6"
2 A4.0
5'-6"
Sheet TItle:
72'-0"
Key Plan
H
29'-6 3/4"
G
55'-0 3/4"
F
4 A4.0
20'-0"
E
25'-6"
D
25'-6"
C
25'-6"
B
A
13'-6"
3 A4.0
20'-0"
6'-4" 6'-4"
8'-0 1/2" 6'-3 3/4" 6'-3 1/4"
10'-0"
Office
005
006
10'-0"
1'-0"
006
UP
8'-5 3/4"
12'-9"
6'-4"
Entrance Foyer
Storage
Waiting Room 12'-9"
20'-0"
59'-6"
27'-6"
Servers
13'-0"
19'-0" Office
A4.0 1
3
20'-0"
13'-6"
006
6'-4"
3'-8"
4
7'-2" 7'-1"
UA Ce nter for Infomation and Collaboration University of Arizona - Tucson, Arizona
5'-0"
30'-0"
86'-4"
5'-0"
26'-4"
25'-6"
009
85'-4"
11'-0"
Mens Restroom 19'-10"
20'-0"
50'-0"
9'-8"
30'-4"
1'-0" 14'-2"
6
17'-5"
5'-0"
3'-0"
3'-8"
14'-2"
7
Womens Restroom
A3.0
ept
um
1
2
3
4
5
6
7
1
A
2
3
4
5
6
7
1
A
2
3
4
5
6
7
A
A
Service (85.5' X 11’) LARGE STUDY ROOM (10' X 19.5')
B
Library Collections Platform 3 (19.75' X 20.25')
Library Collections Platform 5 (17' X 19.75')
Library Collections Platform 6 (17' X 19.75')
Library Collections Platform 7 (17' X 19.75')
B
Library Collections Platform 3 (19.75' X 20.25')
Library Collections Platform 4 (17' X 19.75')
Library Collections Platform 5 (17' X 19.75')
Library Collections Platform 6 (17' X 19.75')
Library Collections Platform 7 (19' X 19.75')
Conference Room (12.5' x 23.5')
Library Collections Platform 2 (17' X 20.75')
LARGE STUDY ROOM (10' X 19.5')
LARGE STUDY ROOM (10' X 19.5')
LARGE STUDY ROOM (10' X 19.5')
LARGE STUDY ROOM (10' X 19.5')
LARGE STUDY ROOM (10' X 19.5')
LARGE STUDY ROOM (10' X 19.5')
LARGE STUDY ROOM (10' X 19.5')
LARGE STUDY ROOM (10' X 19.5')
LARGE STUDY ROOM (10' X 19.5')
SMALL STUDY ROOM (8' X 9.5')
B SMALL STUDY ROOM (8' X 9.5')
VISITING FACULTY OFFICE (10.5' X 9.5')
Library Collections Platform 8 (17' X 31')
Library Collections Platform 2 (17' X 20.75')
Conference Room (12.5' x 23.5')
C
C Library Collections Platform 9 (17' X 31')
Library Collections Platform 1 (17' X 20.75')
SMALL STUDY ROOM (8' X 9.5')
Library Collections Platform 13 (17' X 20.75')
VISITING FACULTY OFFICE (10.5' X 9.5')
LARGE WORK ROOM (17' x 23.5')
SMALL STUDY ROOM (8' X 9.5')
Library Collections Platform 14 (17' X 20.75')
C
VISITING FACULTY OFFICE (10.5' X 9.5')
LIbrary Reference
Library Collections Platform 1 (17' X 20.75')
VISITING FACULTY OFFICE (10.5' X 9.5')
Library Collections Platform 9 (17' X 31')
UP
D
VISITING FACULTY OFFICE (10.5' X 9.5')
D
Library Collections Platform 12 (17' X 26.75')
Library Collections Platform 11 (17' X 26.75')
Library Collections Platform 10 (17' X 19')
MEDIUM WORK ROOM (12.5' X 20')
D
Entrance Platform
VISITING FACULTY OFFICE (10.5' X 9.5')
Library Collections Platform 12 (17' X 26.75')
Library Collections Platform 12 (17' X 26.75')
Library Collections Platform 11 (17' X 26.75')
Reading Area (9.75' X 19')
E AUDIOVISUAL LAB (12.5' X 9.5')
AUDIOVISUAL LAB (12.5' X 9.5')
level two area
conference room medium work room study carrels service library collections (platform 1-6)
293.75 sq. ft. 250 sq. ft. 1260 sq. ft. 940 sq. ft. 2112.75 sq. ft.
quantity subtotal 2 1 1 1 1
SMALL STUDY ROOM (8' X 9.5')
C
SMALL STUDY ROOM (8' X 9.5')
SMALL STUDY ROOM (8' X 9.5')
SMALL STUDY ROOM (8' X 9.5')
SMALL STUDY ROOM (8' X 9.5')
SMALL STUDY ROOM (8' X 9.5')
SMALL STUDY ROOM (8' X 9.5')
SMALL STUDY ROOM (8' X 9.5')
SMALL STUDY ROOM (8' X 9.5')
SMALL STUDY ROOM (8' X 9.5')
D
E
E
VISITING FACULTY OFFICE (10.5' X 9.5')
SMALL STUDY ROOM (8' X 9.5')
level three
function:
TOTAL
Reading Area (9.75' X 19') VISITING FACULTY OFFICE (10.5' X 9.5')
E
Library Collections Platform 10 (17' X 19')
B
SMALL STUDY ROOM (8' X 9.5')
level four
function:
area
587.5 sq. ft. 250 sq. ft. 1260 940 sq. ft. 2112.75 sq. ft.
visitng faculty office medium work room large work room open study service library collections (platform 6-12)
99.75 sq. ft. 250’ sq. ft. 299.5 sq. ft. 1137.5 sq. ft. 940 sq. ft. 3174.5 sq. ft
5150.25 sq. ft.
TOTAL
quantity 8 1 1 1 1 1
function:
area
798 sq. ft. 250 sq. ft. 299.5 sq. ft. 1137.5 940 sq. ft. 3174.5 sq. ft.
visitng faculty office large study room med. study room library collections (platform 14-16)
99.75 sq. ft. 195’ sq. ft. 76 sq. ft. 522.75
6600.5
TOTAL
subtotal
quantity 8 10 16 1
subtotal 798 sq. ft. 1950 sq. ft. 1216 sq. ft. 522.75
4487.75
ZIE
MATERIAL OTHOGRAPHIC EXPLOSION
T.Yazzie Architecture
October 1,2012
W
A LARGE STUDY ROOM (10' X 19.5')
Fluid Dynamics Research Lab X
SMALL STUDY ROOM (8' X 9.5')
Civil Engineering SMALL STUDY ROOM (8' X 9.5')
SMALL STUDY ROOM (8' X 9.5')
SMALL STUDY ROOM (8' X 9.5')
B
X
SMALL STUDY ROOM (8' X 9.5')
SMALL STUDY ROOM (8' X 9.5')
5 sq. ft. sq. ft. q. ft. 75
SMALL STUDY ROOM (8' X 9.5')
SMALL STUDY ROOM (8' X 9.5')
SMALL STUDY ROOM (8' X 9.5')
SMALL STUDY ROOM (8' X 9.5')
1
2
3
4
5
6
7
Growing Medium Filter Fleece Drainage Layer Waterproofing Membrane
A B
Gypsum Sheathing Air Space
Storage (14.5' x 23.5')
Light Concrete
METAL
C
Metal Frame
GALLERY COLLECTIONS
Mechanical Room (25.75' x 89')
(57' X 60')
Corrugated Panel (fastened to metal frame) Corrugated Metal Panel
D Library Collections Platform 9 (17' X 31')
Scale:
1”=40’
GALLERY
Sheet TItle:
(77' X 20.5')
Site Plan
A1.0
D
Library Collections Platform 12 (17' X 26.75')
Library Collections Platform 12 (17' X 26.75')
Library Collections Platform 11 (17' X 26.75')
Reading Area (9.75' X 19')
T. YAZ ZI E
E SMALL STUDY ROOM (8' X 9.5')
E
Library Collections Platform 10 (17' X 19')
GATHERING SPACE
F
CONCRETE
Gypsum Steel Stud
T.Yazzie Architecture
October 1,2012
Sheathing
Issued for:
Rigid Insulation Air Space 2”
Construction Administration
1.50
8.50
0.50
Brick Exterior 20.00
1.00
Double Glazing
1.50
Reading Area (9.75' X 19')
SMALL STUDY ROOM (8' X 9.5')
7
Steel Plate Finish
level five
quantity 8 10 16 1
subtotal
function:
798 sq. ft. open study 1950 sq. ft. service typical bay (east facade) 1’=1/4” 1216 sq. ft. 1’=1/16” 522.75
level six 8.00
Library Collections Platform 10 (17' X 19')
SMALL STUDY ROOM (8' X 9.5')
SMALL STUDY ROOM (8' X 9.5')
6
C
SMALL STUDY ROOM (8' X 9.5')
lections SMALL STUDY ROOM (8' X 9.5')
5
1.50
LARGE STUDY ROOM (10' X 19.5')
UA Ce nter for Infomation and Collaboration University of Arizona - Tucson, Arizona
Y
)
4
66.75
X
3
14.25
X
X
X
2
5.50
1
7
10.50
6
8.50
X
5
area 9570 sq. ft. 1131 sq. ft.
quantity
subtotal
COMPLETE ENVELOPE
1 9570 sq. ft. 1 1131 sq. ft.
Scale:
function:
area
gallery gallery collections mechanical room
1540 sq. ft. 3420 sq. ft. 2291.5 sq. ft.
quantity
subtotal
1 1540 sq. ft. 1 3420 sq. ft. 1 2291.5 sq. ft.
17.00
X
X
UA Center for Infomation and Collaboration University of Arizona - Tucson, Arizona
Construction Administration
Electrical & Computer Engineering
05
BRICK
Issued for:
X
Sheet TItle:
Elevations
A3.0
4487.75
TOTAL
LIBRARY COLLECTIONS: south elevation
10700 sq. ft.
west elevation
TOTAL
7251.5 sq. ft.
1’=1/32”
material section through east facade
1’=1/4
C
D
gallery collections
north light
gallery
louver shade system
open study study carrel space
private study mech. room
library collections
mech. room
service desk
lobby
aud
open plaza space
parking level 2 parking level 1
d
Scale: 1’=1/4�
E
E
05 service
gallery
service
111.25 ft
111.25 ft
library collection
76 ft
76 ft
65 ft
ditorium
room
exterior plaza administration
visiting faculty office
work room
exterior plaza
parking
A
Scale: 1’=1/8”
Scale: 1
65 ft
46.5 ft
natural ventilation
open study
library library visiting faculty collection library library reference collection library reference office collection work
parking
A
open study
library collection
administration 90.75 ft
gallery
service
library collection
90.75 ft
service
46.5 ft
natural ventilation green roof terrace 24 ft
parking ramp
24 ft
parking ramp 12 ft
n
cafe
approach cafe space parking
parking
12 ft
n
green roof terrace
B
B
auditorium approach space
auditorium
Scale: 1’=1/8”
Scale: 1