JORDAN SJUE
2018
ARCHITECTURE PORTFOLIO
Selected Works 2011 - 2016
C O N TA C T I N F O R M AT I O N 3706 36th Street / Lubbock, TX 79413 575.420.6044 jordan.sjue@gmail.com issuu.com/jordansjue linkedin.com/in/jordandaniellesjue instagram.com/sjueee
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ABOUT ME I am graduate from Texas Tech University’s College of Architecture where I received both my Bachelor’s and Master’s degrees in Architecture with a Certificate in Urban and Community Design. I am seeking full time employment as an intern architect starting in October, and I look forward to any opportunity to continue to learn and succeed in pursuit of my professional architectural license. Designing within the large urban context has become a key area I am passionate about investigating and furthering my knowledge and design skills. I am eager to fully understand how a city functions and how it connects the public and private sectors successfully within the built environment. I am detail oriented, a team player, and available to work long hours until the best solution is found. I am excited to get my career started and look forward to working at your design firm.
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EXPERIENCE M A N AG E R , B A R T E N D E R + WA I T R E S S Orlando’s Italian Restaurant / Jan. 2011 - Present / Lubbock, TX Manage a full shift of kitchen, wait, and delivery staff. Responsible for bank deposits, paperwork, customer service, and store repairs. Bartended and waited on customers while creating an enjoyable dining experience for customers.
ARCHITECTURAL INTERN HDR Architecture, /May 2016 - August 2016 / Dallas. TX Assisted both the Healthcare and the Science + Technology Design teams. Attended client meetings, helped sketch plans, drafted schematic plans, kept meeting minutes, developed elevations, verified shop drawings, constructed foam core models, and visited job sites around the Dallas / Fort Worth area. Used various 2D and 3D software in conjunction with hand sketching and modeling. Presented an intern presentation.
G R A D U AT E T E A C H I N G A S S I S TA N T Texas Tech University / Aug. 2014 - May 2015 / Lubbock, TX Assisted the professor in grading homework assignments, quizzes, and in class work. Helped oversee lectures, answered student’s questions during and outside of class time, and periodically helped teached lessons
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QUALIFIYING SKILLS + P A R T I C I P AT I O N
ANALOG SKILLS Architecture + Product Design
D I G I TA L S K I L L S Architecture
+ Hand Drafting
+ AutoCad
+ Model Building
+ Bluebeam
+ Sketching
+ Illustrator
+ Surveying
+ InDesign
+ Woodworking
+ Lumion
+ Welding
+ Photoshop
ARCHITECTURAL O R G A N I Z AT I O N S Member + AIA 2018 - Present + AIAS 2014 - 2015
VOLUNTEER WORK Volunteer + Lubbock Dream Center 2015 - 2016 + Habitat for Humanity Lubbock 2012 - 2014
+ Revit + Rhino + Sketchup
+ 2016 Knights of Architecture 2013 - 2014
+ Meals on Wheels of Lubbock 2010 - 2012
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TA B L E O F C O N T E N T S DESIGN STUDIO PROJECTS
01 | Comprehensive Studio - Slav Epic Museum ..................................... 07
02 | Study Abroad Studio - Vertical Pavilion ........................................... 19
03 | Topical Studio - Mixed-Use Development ....................................... 27
04 | Topical Studio - Low Income Housing ............................................. 35
SYSTEMS GROUP PROJECTS
05 | Construction Systems ......................................................................... 41
06 | Building Information Modeling ........................................................ 47
PRODUCT DESIGN
07 | Wooden Camera Box ......................................................................... 51
08 | Metal Desk ........................................................................................... 53
S L AV E P I C H I S TO R Y MUSEUM TYPE: Museum LOCATION: Prague, Czech Republic FOCUS: Comprehensive Design PROGRAMS: Revit, Rhino + Illustrator The site for this museum is along the Vltava River and next to the Kampa Museum and the Liechtenstein Palace within a large and densely visited park. The museum will depict the history of the Slavic people up into the 20th century via 20 large Slav Epic paintings created by Alphonse Mucha and ranging in sizes of up to 20’ x 26’. Some of these large paintings are to be viewed as triptychs and some of the paintings can stand alone. The museum’s underlying form was influenced by a combination of existing lines that intersect the site, which became a semi-hard boundary for the building’s interior and exterior moments during the conceptual design phase. Eventually these site lines revealed a compressing and releasing component upon the site, which was further explored and modified to better suit the needs and program of the museum. The museum contains several gallery rooms, a small theater, two cafes, and plenty of room for people to enjoy the beautiful interior and exterior views. The museum aims to be a highly visible and victorious reminder of the Slavic people’s history and all they have triumphed.
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AA
0' - 0"
N BB
Ground Floor Plan
AA
AA
49' - 3" 18' - 0"
20' - 8"
Second Floor Plan
Third Floor Plan
18' - 0"
BB
BB
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Section AA
Section BB
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G L AS S WA L L SYSTEM
P E R F O R AT E D WA L L S Y S T E M
corner guard
double paned 1" tempered glass 3/8" air space
traingular space truss column
corner guard
glass drain pipe steel c section 12" metal coping
double paned 1" tempered glass corner guard
rigid insulation steel c section 12"waterproofing metal coping
3/8" air space
roof rigidmembrane insulation
traingular space truss column double paned 1" tempered glass
steel c section waterproofing 12" metal coping
3/8" air space
roof membrane rigid insulation
outside
inside
outside
inside
roof membrane
inside
metal roof decking
waterproofing
traingular glass drainspace pipe truss column inside
steel flat
glass drain pipe
outside
8" steel tube steel flat
4'metal deeproof truss girder decking
W40x199 steel beam steel flat
4'metal deeproof truss girder decking
16" steel column 8" steel tube
secondary skin structure
inside
16" steel column 8" steel tube
perforated skin panel W40x199 steel beam
4' deep truss girder
steel angle skin structure secondary
16" steel column
bolts perforated skin panel W40x199 steel beam
inside
waterproofing steel angle skin structure secondary insulation bolts perforated skin panel waterproofing steel angle
Wall to Roof full weld spider clamp connector double silicone sealant with backer rod
tempered glass panel railing @ 3' steel standoff base + cap 6" horizontal steel pipe
insulation bolts
Wall to Roof waterproofing insulation
6" vertical steel pipe
4" steel tube connector
insulation
gypsum wall board
waterproofing
hat channel
insulation
tempered glass panel railing @ 3' full weld spider clamp connector double 3/8" air sealant space with backer rod silicone
steel standoff base + cap 6" horizontal steel pipe tempered glass panel railing 3' 6" vertical steel @ pipe
1"steel double paned tempered glass 4" tube connector full weld spider clamp connector double silicone sealant with backer rod
steel standoff base + cap 6" horizontal steel pipe 6" vertical steel pipe
4" steel tube connector
gypsum wall board
waterproofing
wood flooring hat channel
steel angle insulation 8" steel tube waterproofing steel angle
concrete topping slab gypsum wall board 4' deep truss girder wood flooring hat channel concrete topping 2' deep steel slab joist
8" steel tube
16"wood steel column 4' deep truss girder flooring
steel beam steel angle
2' deep steel joist concrete topping slab
bolt 8" steel tube
16" steel 4' deep trusscolumn girder
steel angle beam steel
2' deep steel joist
bolt flat steel
inside
16" steel column
steel beam angle
3/8" air space
bolt flat steel
1" double paned tempered glass
steel angle steel flat
3/8" air space
traingular space truss
outside
inside
1" double paned tempered glass
inside
outside
inside
outside
inside
gypsum wall board angled downlight gypsum wall board
inside
angled downlight
traingular space truss
Wall to Floor to Wall 3/8" air space
outside
traingular space truss
inside
double paned 1" tempered glass clear silicone caulk anodized channel spacer
wood flooring concrete topping slab insulation concrete foundation
insulation water 3/8" airproofing space
sand outside
inside
Wall to Foundation
gravel
double paned 1" tempered glass
clear silicone caulk anodized channel 3/8" air space spacer
double paned 1" tempered glass clear silicone caulk anodized channel insulation spacer water proofing
outside
inside
wood flooring concrete topping slab insulation
gypsum wall board
Wall to Floor to Wall outside
angled downlight
inside
steel angle bolt steel plate concrete sidewalk
outside
inside
steel angle bolt steel plate concrete foundation concrete sidewalk
concrete topping slab spacer
outside
inside
concrete topping slab spacer sand wood flooring
wood flooring
wood flooring
steel angle insulation bolt steel plate water proofing concrete foundation concrete sidewalk
gravel concrete topping slab spacer sand
earth insulation
gravel
water proofing concrete foundation earth insulation
sand
water proofing
gravel
earth
Wall to Foundation
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concrete foundation wood flooring sand concrete topping slab insulation gravel concrete foundation
insulation water proofing
sand gravel
inside
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VERTICAL INTERVENTION TYPE: Pavilion LOCATION: Venice, Italy FOCUS: Urban Design PROGRAMS: Hand drafting, Surveying, Rhino, + Illustrator This study abroad design studio began with investigating Venice and beginning to understand it as an agggregate of old and new elements that over time have turned it into a virtually floating city. The site for this pavilion is on one of Venice’s 400 minor bridges; therefore, by taking over the bridge as a publice space to create a pavilion requires all locals and tourists taking that route to interact directly with the architecture of the pavilion. This pavilion is an intervention that works to better organize the public walking spaces and plazas in a vertical orientation within a city founded on the horizontality of maritime commerce. This pavilion has been designed to reveal new layers upon Venice that are generated by reaggregating the new and old specificially at their intersecting junctions. Some of these junctions exist between water and pavilion, bridge and pavilion, and wall and pavilion. Each of these intersections provide a new level of layering that result in new properties of organization and orientation. The main axis of the existing junction (bridge) was reoriented not only in the horizontal direction but also vertically. The only program requirements for this pavilion is that it must include at least one public restroom.
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Section Siting Plan
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N Ground Siting Plan
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1342
1341
1340
1339
1338
1337
1336
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1331
1330
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Intervention
interven
Acting Forces
forces of co
Operations
operatio
N
Ground Floor Plan
Existing Site
ion
sect
existing s
01
02 ion sect
02 ion sect
Plan Above
Place for Many
sect
sect
ion
02
ion 01
Plan Below
Place for One
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above
Place for One
Place for Many
Ground
Below
Above Plan
Destination
Place for One
Circulation
Place for Many
Structure Ground Plan
Below Plan
Section 01
Intervention
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north
13TH AND AV E N U E J
transition space to green building green space above
model #1 diagrams philip glass | the hours
connecting space to green building
programming space green space
programming space
programming space section a green space
green area above green space
entry
plan
TYPE: Mixed-Use LOCATION: Lubbock, TX
green building
FOCUS: Adaptive re-use
green space green space green space
PROGRAMS: Revit, Rhino + Illustrator This adaptive re-use project takes site within the exisitng Cobb
transition to green building
programming space green space
programming space
transition space
Music Diagram
section a
building in downtown Lubbock. The conceptual design for
jordan danielle sjue | arch 3502 | spirng 2014 | pongratz
this building was inspired from Philip Glass’ song, ‘The Hour.’
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The song was re-envisioned into a two-dimensional poetically driven diagram that ultimately influced a series of threedimensional masses in which the most inhabitable spaces were
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futher developed to become the program. The existing column and grid structure of the building was kept, while parts of the existing exterior brick facades were modified to accommodate the new protruding and sunken masses. The final program
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1
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includes 8 apartments with residential amenities, roof terrace, a cafe, a farmer’s market, research for hydroponic gardening, and plenty of room for indoor and outdoor gardening.
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4
Massing Model
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N
Ground Floor Plan
Longitudinal Section
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N
Second Floor Plan
Transverse Section
Sheet Metal Parapet Cap
Steel Railing
Bolts
Steel Railing with Glass Inserts
Sheet Metal Protection
Wood Blocking
Level 3 31' - 6" Level 3 31' - 6"
Level 3 31' - 6" 1 Steel Railing with Glass Inserts
Level 3 31' - 6"
K Series Joist Dropped Ceiling 1
Level 3 31' - 6"
Concrete 2’ x 2’ Tile
Green Roof
Level Steel Railing with Glass3Inserts 31' - 6"
Acoustic Ceiling Tile 2’ x 2’ 1 Level Concrete 2’ x 32’ Tile
Green Roof
K Series Joist Dropped Ceiling
Level 3
31' - 6"
Acoustic Ceiling 31' Tile - 6"2’ x 2’ K Series Joist Dropped Ceiling Green Roof
1
Concrete 2’ x 2’ Tile
Pendant Light
Steel Railing
Bolts Wood Blocking Steel Plate
Sheet Metal Protection
Water Proofing Sheet Level Metal Parapet Cap 3 Bolts 31' - 6" Vapor Wood Blocking
Level Steel3Railing 31' - 6"
Barrier
Sheet Metal Protection Paver with Shim Filter Fabric
Insulation
Level 3
Level 3 Layer Reservoir
Steel Plate 31' - 6" Sheet Metal Parapet2’ Cap Concrete x Water Proofing Bolts Insulation Vapor Barrier Wood Blocking
2’ Tile
Steel Plate Bolts
Level 3
Water Proofing Concrete 2’- x6"2’Angle Tile 31' Steel Vapor Barrier Insulation Bolts Steel Angle Concrete 2’ x 2’ Tile Sheathing Steel Plate Water Proofing
Acoustic Ceiling Tile 2’ x 2’ Pendant Light K Series Joist Dropped Ceiling Pendant Light Acoustic Ceiling Tile 2’ x 2’
Concrete 2’ x 2’ Tile
Filter Fabric
Sheet Metal Parapet Cap
Steel Railing with Glass Inserts
Green Roof
Level 3 31' - 6"
Level 3 31' - 6"
Paver with Shim
Insulation
Spacer
Bolts Sheathing Vapor Barrier Steel Angle Spacer Existing
Concrete Column
Existing Concrete Column Concrete 2’ x 2’ Tile Sheathing
Vapor Barrier
Level 2 16' - 0"
Level 2 16' - 0" 2
Level 2 16' - 0"
Level 2 16' - 0"
Level 2 16' - 0"
2
2
K Series Level 2 Joist Dropped Ceiling 16' - 0" Acoustic Ceiling Tile2 2’ x 2’ Level K Series Joist Dropped Ceiling
Level 2 16' - 0"
16' - 0"
2 Tile 2’ x 2’ K Series Joist Dropped Acoustic CeilingCeiling Pendant Light K Series Joist Dropped Ceiling
Pendant Light
Acoustic Ceiling TileAcoustic 2’ x 2’Ceiling Tile 2’ x 2’
Bolts Level 2 Steel Plate 16' - 0" Steel VaporAngle Barrier
x 2’ Tile
Level 2 16' - 0"
Level Bolts2
Existing 16'Concrete - 0" Column Sheathing Steel Angle
16' - 0"
Concrete Topping Slab
Spacer Steel Embed Plate Bolts
Metal Decking Steel Angle Insulation Steel Angle Bolts Bolt Steel Beam Steel Tube
Steel Angle Existing Concrete Column Steel Angle Sheathing Anchor
Spacer Steel Embed Plate Sheathing Column
2_Wall to Floor to Wall Steel Plate Steel Embed WaterEmbed Proofing
Plate
Steel Angle
Steel Angle
Concrete 2’ x 2’ Tile Anchor
Pendant Light
Pendant Light
Vapor Anchor Barrier Water Proofing Steel Plate
Water Proofing 0' - 0" Steel Shelf
Wood Flooring Existing Concrete Column
Water Proofing
- 0" Steel 0' Plate
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Drainage Mat Compressive Filler Steel Shelf Drain Pipe Concrete Concrete Sidewalk Gravel
2’ x 2’ Tile
Vapor Barrier
Level Drainage Mat1
0'Steel - 0" Plate
Level 1 0' - 0"
Level 1 0' - 0"
Drain Pipe Compressive Filler Gravel
Steel Shelf Concrete Sidewalk
Drainage Mat
3 Level 1 0' - 0"
Level 1 0' - 0"
Drain Pipe Gravel
Level 1 0' - 0"
Compressive Filler
Sheathing Gypsum Board Concrete Topping Slab Wood LevelPaneling 1 Keyway 0' 0" Hat- Channel Water Proofing Spacer Sand ConcreteWood Topping Slab Flooring Gravel Keyway Sheathing Water LevelProofing 1 Concrete Footing 0' - 0" Sand Gravel Earth Concrete Topping Slab Concrete Keyway Footing Water Proofing
Level 1 0' - 0"
Level 1 0' - 0"
Wall Section
Sealant Steel Beam Insulation Steel Angle
Existing Concrete Column Gypsum Board Wood Paneling Hat Channel Spacer Wood Flooring Sheathing
Level 2 16' - 0" Concrete Topping Slab Metal Decking Steel Angle Steel Beam
Steel Angle Bolts
Insulation Bolt Steel Tube
Sand Earth Gravel
Drainage Mat
3_Wall to Foundation Drain Pipe Gravel
Existing Concrete Column Gypsum Board Wood Paneling Hat Channel Spacer Wood Flooring Sheathing
Level 1 0' - 0"
Concrete Footing
Earth
3
Metal Decking Membrane Flashing
Level 1 Spacer 0' - 0"
Level 1
VaporLevel Barrier1
Level 1 0' - 0"
Existing ConcreteInsulation Column Bolt Gypsum Board Steel Tube Wood Paneling
Steel Plate
Concrete Sidewalk Compressive Concrete 2’ x Filler 2’ Tile
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Insulation Bolt Steel Angle Steel Tube Bolts
Hat Channel Existing Concrete Column Spacer Gypsum Board Wood Flooring Wood Paneling Sheathing Hat Channel
Concrete 2’ x 2’ Tile Steel Shelf Vapor Barrier Concrete Sidewalk
Level 1 0' - 0"
Wood Flooring Existing Concrete Column Concrete Topping Slab Sheathing Gypsum Board Metal Decking LevelPaneling 2 Wood Steel Angle 16' Hat- 0" Channel Steel Beam Concrete Topping Slab Spacer Metal Decking Wood Flooring Steel Angle Sheathing Steel Angle Steel Level 2 Beam Bolts
Sheathing Bolts Concrete 2’ x 2’ Tile Spacer Steel Angle
AnchorExisting Concrete Existing Concrete Column
Concrete Topping Slab
Sealant
Level 2 Spacer 16' - 0"
Steel Angle Spacer
Waterproofing
Steel Angle Metal Decking
Hat Channel Existing Concrete Column Spacer Gypsum Board Wood Flooring Wood Paneling Sheathing Hat Channel
Plate
Steel Plate Concrete 2’ x 2’ Barrier Tile Vapor
Level 2 16' - 0"
Root Barrier Protection Course
Insulation Concrete Topping Slab
Steel Beam Existing Concrete Column Insulation Gypsum Board Steel Angle Wood Paneling
Insulation Vapor Barrier Water Proofing
Water Proofing Concrete 2’ x 2’ Tile 2’ Concrete Insulation
Drainage Layer
Membrane Flashing
Sheathing Water Proofing Spacer Insulation Proofing ExistingWater Concrete Column Steel Plate
Steel Insulation
Concrete Topping Slab Thermal Insulation Steel Beam Metal Decking Drainage Layer Insulation RootSealant Barrier Steel Angle Membrane ProtectionFlashing Course
Aeration Layer Thermal Insulation
Steel Beam Waterproofing
Spacer Bolts
1_Roof to Wall Existing Concrete Column Steel Angle
Pendant Light
31' - 6" Layer Moisture Retention Paver withRailing Shim Steel Aeration Layer Filter Fabric Sheet Metal Protection Thermal Insulation Reservoir Layer Drainage Layer Moisture Retention Layer Root3Barrier Level Aeration Layer 31' - 6"Course Protection Thermal Insulation Paver with Shim Waterproofing Drainage Layer Filter Fabric Concrete Topping Slab Root Barrier Reservoir Layer Metal Decking Protection Moisture RetentionCourse Layer Sealant Waterproofing Aeration Layer Membrane Flashing
Reservoir Layer Moisture Retention Layer
Concrete Topping Slab Keyway Water Proofing Sand Gravel Concrete Footing
Earth
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K E N YA N HOUSING TYPE: Housing LOCATION: Nyahururu, Kenya FOCUS: Affordability PROGRAMS: Revit + Illustrator The design for these housing units is based upon using techniques for rain water harvesting, using local building materials along with local laborers, using solar energy as a main power supply for the housing units/community, and creating edible gardens for the inhabitants to not only eat but to use as trade for other materials and items in the local community of Nyahururu. The site is a very grassy and hilly area north of Nyahururu that has an elevation change of over 100 feet. The inhabitant spaces are comprised of one bedroom and two bedroom units, some of which are stand alone singlue unit houses and others are part of a system of housing units. Units were not to exceed one floor.
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A-1
A-2
A-2
DOUBLE BEDROOM HALF UNITS
porch
416’ - 0”
A-2
A-1
A-2
porch
420’ - 0”
A-1
porch
416’ - 0”
N
Ground Floor Plan
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A-2
SINGLE BEDRROM UNITS solar panels
water tank
SECTION A-1 F-1_ Scale: 1/8” = 1’ - 0”
solar panels
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SECTION F-2_ TYPICAL FACULTY HOUSING
A-1
water tank
A-2
402’ - 0”
Floor Plan N Ground PLAN_ TYPICAL FACULTY HOUSING
Scale: 1/8” = 1’ - 0”
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DOUBLE BEDROOM UNITS
A-1
water tank
A-2 455' - 0"
water tank
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N
Ground Floor Plan
bathroom
Scale: 1/8” = 1’ - 0”
A-1
solar panels
water tank
A-2 SECTION G-2_ TYPICAL GUEST HOUSING
Scale: 1/8” = 1’ - 0”
solar panels
SECTION G-1_ TYPICAL GUEST HOUSING Scale: 1/8” = 1’ - 0”
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CONSTRUCTION SYSTEMS
24’-0” T.O. Roof
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22’-0” T.O. Wall
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TYPE: Commercial
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FOCUS: Structural Systems
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PROGRAMS: AutoCad, Rhino + Illustrator GROUP MEMBERS: Erica Latta, Christopher Brennan, + Caleb Lightfoot 08
The focus of this project was to begin understanding the components and connections of various structures and apply that knowledge into a small building to further understand these connections, materials, and details. The floor plan was pre-determined, but the materials for the walls, the floors, and
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the roof were determined by the group. Together we chose concrete systems
7’-6” T.O. Slab @ Exterior Sidewalk
for the majority of the project with two glass facade walls and a half concrete
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half glass roof system. The central Railway Station in Ulm, Germany was
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used as a precedent for its use of spider clamps and steel stress ribbons that
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support the glass wall.
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After the design of the structure was complete, we continued working on the
0’-0” Ground Level
project as individuals. So, for the second portion of the project, I developed four exploded wall details depicting the structure we had designed..
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D.03
T.O. Slab @ Entry Floor
-2’-6”
Longitudinal Section
-2’-10”
T.O. Slab @ Ground Floor
D.04
1.0
2.0
D.06
3.0
D.07
D.10
4.0
24’-0” T.O. Roof
23’-0” T.O. Wall
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20
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|
LONGITU
01 3” Concrete Ext
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02 1/4” Reinforcing 03 Waterproofing
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08
04 2” Rigid Insulati
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05 Sill Drip Off
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06 1/8” Glass Wind 07 1/2” Argon Gas
08 8” Concrete Col
09 3/8” Compressiv
10 1” Drainage Ma 11 Vapor Barrier
12 1’ Concrete Foo
13 Roof Drain Run 14 1/4” Cable 15 Steel Angle
16 1/2” Gypsm Boa
17 Concrete Waffle
18 1/2” Brazillian O 19 Hat Channel D.05
20 Steel Embed Pl
D.11
21 Sealant 22 Spider Clamp
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23 1/4” Tensile Cab
7’-6” T.O. Slab @ Second Floor
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D.12 D.08
0’-0” Ground Level
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D.09 T.O. Slab @ Entry Floor
-2’-6” -2’-10” T.O. Slab @ Ground Floor
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B.0
A.0
1.0
24’-0” T.O. Roof
24’-0” T.O. Roof
01 02 03
23’-0” T.O. Wall
22’-0”
04
24
05
| |
01
TRANSVERSE TRANSVERSE
ELEVATION SECTION
T.O. Wall
01 Roof Membrane
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02 Self Healing Water Proofing 02 03 Tapered Rigid Insulation
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04 7” Concrete Roof Slab 05 8” Concrete Column 06 1/2 Steel Spider Clamp 07 1/4” Tension Cable 08 Slate 2’ x 1” Tiles
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09 Grout Sealant 07
10 Bolt
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11 Steel Pedastool 12 2” Rigid Insulation 13 8” Concrete Slab 14 2” Sand 15 4” Gravel 16 Compacted Earth
04 17 2” Concrete Topping Slab with Heating Elements 18 1’Concrete Footing
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19 1” Drainage Matt
10’-0” B.O. Wall
20 Gravel
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21 Drain Tile 22 Filter Fabric 23 3” Concrete Exterior Finish
7’-6”
24 1/4” Reinforcing Rebar
T.O. Slab @ Exterior Sidewalk 25 Spider Clamps
26 Concrete Beam
D.13
0’-0” Ground Level
02 08 09 10 11
T.O. Slab @ Entry Floor
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Ground Floor
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T.O. Slab @ Entry Floor
-2’-4”
-2’-6”
-2’-10”
-2’-10”
T.O. Slab @ Ground Floor
12 13 14 15
0’-0”
01
D.14
22 21 20 19 18
T.O. Slab @ Entry Floor
| |
2.0
3.0
4.0
24’ -0” T.O. Roof
23’ -0”
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LONGITU
T.O. Wall
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01 Reveals 02 Form Holes 03 3” Cast on Site
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04 2” Door Frame
05 1/4” Glass Door
06 8” Concrete Bea 07 Spider Clamp
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08 8” Steel Column 09 1/4” Cable
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7’-6” T.O. Slab @ Second Floor
0’-0” Ground Level
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1_Raised Floor 05 06 07 08 09
04 01
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03
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02
04 11 12
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07 22 21 02 24
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01 22 06 25
2_Wall to Roof
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01
Bolts
02
Pedastool
03
Insulation
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Water proofing
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Tile
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Concrete column
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Spacer
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Grout
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Gypsm board
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Footing
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Sand
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Gravel
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Compacted earth
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Drainage mat
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Hat channel
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Exterior concrete
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Concrete sidewalk
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Floor concrete
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Double paned glass
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Sealant
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Single paned glass
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Cables
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Spider clamp
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Tie down
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Concrete beam
3_Wall to Foundation 01 06 15 04 09 03 16
04 07 03 14 13 18 17 06
23 19
06
20 21 20 22 24
07 17 04 03 01 02 14 13
4_Wall to Foundation
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B U I L D I N G I N F O R M AT I O N MODELING TYPE: Office FOCUS: Intergrated building systems PROGRAMS: Revit + Illustrator GROUP MEMBERS: Luis Carlos Iglesias + Edward Serna Our group decided to use a central mechanical system with a Variable Air Volume configuration for our building. We chose this system because it is quieter and cost efficient for the building type. The VAV system allows for excellent control of interior air quality, and it is easy to heat or cool the separate zones of the building at the same time. Both the cooling tower and boiler rooms are centrally located next to the staircase, thus allowing for easy access to each for maintenance. Our building is defined by two separate zones. Our design separates the ground floors for program and later connects them in the floors above. The first zone connects the basement to the second floor where all three buildings connect to form one. The second zone covers the rest of the floors that are all connected together. The electrical system runs along the same path of the mechanical systems in order to allow a clear path for the cables to pass through without coming into contact with any other of the systems seen. Steel girders were chosen because they easily allow the systems to pass through without any clashes.
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Ground Floor Plan
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PLUMBING SYSTEM
Hot Water
Cold Water ADA Railing
Water Heater Fresh Water Water Filter Grey Water Water Softner
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Sewer
Sewege Pump
Gray Water
Hot Water
Cold Water
Flushed Plumbing
MEP SYSTEM
Mechanical
Electrical Plumbing
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CAMERA BOX PROJECT: Make a Box LOCATION: Lubbock, TX PROGRAMS: AutoCad, Rhino + Illustrator TECHNIQUES: Woodworking, Staining, Laser Cutter The Camera Box is a beautifully crafted machine that takes pictures via the manual operation of exposing light on the film for a short period of time. The film can then be rolled up into itself without being exposed to any light.
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FLUX DESK PROJECT: Design/Build a piece of furniture LOCATION: Lubbock, TX PROGRAMS: AutoCad, Rhino + Illustrator TECHNIQUES: Woodworking, Painting, Metalworking, + Glass Cutting This desk was designed with the intent of creating a free flowing composition of steel members moving throughout the piece of furniture. The fluidity of connnections from the steel to the glass and wood portions provide a simplistic and aesthetically pleasing site.
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JORDAN SJUE 2018 575.420.6044 jordan.sjue@gmail.com