Undergrad Architecture Portfolio

Page 1

Undergrad Architecture Portfolio Washington State University | School of Design + Construction

2012 - 2015

Kyle Redzinak


Design Through My Eyes As a design student and aspiring architect, I really enjoy showing off my work and love finding inspiration from anything I can. This includes my infectious desire to expand my network of knowledge, contacts, and friends, where I understand that I can learn from anything and anyone in some way. Through my education, work, and life experiences thus far, I have learned how crucial it is to work as a team player, keep an open mind, make new friends while staying connected to old ones, get more involved with the architecture profession, and travel the world as much as possible. My goal for this portfolio is to capture my excited personality, showcasing some of my significant undergraduate work, architectural photography, and world travels. Enjoy!


Table of Contents 01 Classroom Inspired School 2013

Third Year

4

02 The Seattle Urban Library Second Year

2013

8

03 Fabricating Residential Complexes Third Year

2014

04 The Pullman Food Educatorium Fourth Year

2014

05 Reinvigorating Modernism Fourth Year

2 A2.1

1 A5.0 W2

P1

125 Restroom

W5

2 A8.0

P1

16' - 2 1/2"

W5

119 Stairs 123A

126A

UP

4 A8.0

A10.3

117 Tenant Space

3

F1

2 A2.0

W5

F1

F1

113A

A10.2 2

129A

127

8

118A

113 Analog Store

10

W5

A10.2

W5

14' - 2"

F2

128 Elevator

128A

A10.2

A10.3

127

127A

117A

W5

7' - 2 1/2"5' - 0 1/2"

W3

113B

232 Restroom

129 Corri or

A10.3

9

118C

118 Tenant Space W5

0

129C

117B

120C W5

119A

P1

9

123 Elevator

W5

10' - 0 1/2"

W5

126 Restroom

129

1 A9.0

W2

120A

W5

12' - 7"

W3

129B 5 A10.4

UP

F1

2

F2

S1

3 A8.0

120 Tech Store

A5.0

S1

2 A9.0

125A

P1

120B

A10.3

121B

204E 124 Elevator

W2

4

122A

121 Amazon Reception UP

W3

F1

121A W2

118B

3

W5

2 A5.1

3' - 7 1/2"

18' - 8 1/2"

1 A5.2

18' - 8 1/2"

3 A10.0

18' - 8 1/2"

W5

12' - 0"

122 Restroom

S1 3 A10.3

5.1

4

5

7

A10.0

A10.0

A10.0

2014

06 Block 48 Media Tech Center Fourth Year

2015

07 Design + Detailing Fourth Year

2015

12

20

28

30

42

Architectural Photography 2008 - 2015

Undergrad World Travels 2011 - 2015

46

54


01 Classroom Inspired School Designing on the scale from micro to macro

4


T his project involved designing a school in a series of steps, starting with the micro level (the classroom), moving to the intermediate level (aggregation of the classroom) and finishing on the macro level (the school as a whole). This method of approach drastically changes the way I thought about the design process because typically, planning starts with the big picture and moves into the details. The main goal of this project was to gather information on the needs and wants for kids in a classroom, use this information to develop a classroom design, aggregate this classroom to develop strategic pods or wings and finally, incorporate other necessary facilities that a school requires (commons, library, etc). The final design is directly inspired by the classroom, how the classroom functions and how kids respond to these functions. First Model | Classroom

Second Model | Aggregated Classrooms

Third Model | Full School

Developing the Classroom

Classroom Principle Focuses

Aggregating the Classroom

Learning Wall

Learnability

Sociability

Displayability

Display Wall

Window Wall

Functionality

Activity Wall

Needs + Wants

- Outdoor Learning Space - Indoor Learning/Teaching Space - Gathering Space - Separate Work Space


Circulation

Unique Butterfly Roof Structure

ry School

8

9

8

7

7 6

7 6

East Elevation

5

6

4 3

Legend 1 Main Entrance 2 Administration/Front Office 3 Auditorium 4 Kindergarten Main Entrance

2

5 Library 6 Kindergarten Classroom

1

7 First Grade Classroom 8 Second Grade Classroom 9 Playfields/playground

East Section B

Structure


Final Model | North side of the school with roof removed to show the butterfly roof structure


02 The Seattle Urban Library Finding form from the urban surroundings

8


T his project involved the proposal of a library into an urban site in Seattle, WA. The existing site is a concrete parking lot with a convenient store and dry cleaning building with a steep slope in the back. After visiting the site, I was able to gather some important information, that was then used for the development of my library.

Urban Perspective Creates an Implied Triangular Form

The form of the library is inspired by implied angles a perspective can create in an urban setting. For example, the triangular form that is created when one looks down a building-lined street.

Proximity of Schools and Parks to the Site

Research of the surrounding area revealed a significant amount of residential units as well as many parks and schools. This led to the addition of a playground on the below grade floor. Site School or Park

Existing Building Made an Atrium Necessary An existing five story building butted di rectly up against the site led to the design of a central atrium in the core of the library. This, combined with the glass entry allows much of the building to be sufficiently lit with so much of the site being shaded. Winter

Summer


Underground Floor

Legend

1 Parking 1

2 Green Space 2

3 Bathrooms 4 Indoor Playground

3

4

First Floor

Legend

1

1 Study Rooms 2 Books

2 3

4 Elevator 5 Teen Section

4 5

6 8

3 Cafe

7

6 Reception 7 Bathrooms 8 Reference Section 9 Entrance Lobby

9

Second Floor

Legend

1 Librarian’s Office 1

2

2 Bathrooms

3

3 Offices 4

5

4 Staff Breakroom 5 Open Atrium 6 Meeting Room

6


Final Model | The main entrance has a unique glass lobby which is created by triangles; the implied shape that a perspective makes in an urban setting


03 Fabricating Residential Complexes Urban Planning Strategies

Partners: Bryan Dorsey, Austin Miles, Antonio Norsworthy, Doris Xie, Ting Zhang

12


1

Identifying the Problems

Rapid urbanization, traffic congestion, loss of ancient culture and densification are among the many problems that the area struggles with.

2

Finding Inspiration in the Vernacular Architecture

Create the conditions which will help these issues by capitalizing on the cultural fabric of the original architecture of Shenzhen called Hutongs and the carrying capacity of newer high-rise developments in Urban Villages.

Hutongs

3

Urban Villages

Locating Developable Land

Through extensive research and the use of geographical filters, locate developable land and choose the best location to implement a prototype based on proximity to transportation, education and jobs.


I

n the wake of overpopulation, densification and pollution in every major city around the globe, a special type of architecture, analysis and problem solving is desperately needed. Our target city for this project was Shenzhen, China. In this project, my group and I first identified the district we wanted to focus on and within this district mapped different features of the region such as roads, flood zone, slope and open spaces. The aim of the project was to use research and find patterns to identify the main problems and then develop a residential prototype that addresses these issues.

China

Guangdong Province

Shenzhen

Guangming District ad Ro

s

l Po

Highways

1 km

Major Roads

Heaviest Pollution (Metal, Chemicals, etc)

5 km

3 km

Heavy Pollution (Hardware Manufactring, etc)

Minor Roads

b Su

wa

Moderate Pollution (Packaging Plants, etc)

NORTH

1 mi

Railway

Lowest Pollution (Tree Farms, Warehouses, etc)

ys W

Subway Line and Stops

Bus Line and Stops

ion lut

1 km

3 km

odies er B at

1 km

5 km

5 km

3 km

Stream Path

NORTH

1 mi

NORTH

1 mi

Reservoir Lake

O

ut

sid

e Flood Zon

Urban Villages

1 km

Village Owned Industry Private Owned Industry

3 km

e

s In

ide

Flood Zone

5 km Urban Villages

1 mi

NORTH

Village Owned Industry Private Owned Industry

1 km 1 mi

3 km

5 km NORTH


First Model | Guangming District with illuminated rods representing connectivity among communities, which was helpful in determining areas with less connectivity


A

fter choosing a suitable open space based on traffic congestion, lack of connectivity and proximity to education and cultural spaces, we developed a scheme for our complexes. To preserve the ancient culture in Shenzhen, we chose to have two sizes of units in respect to the hutongs and urban villages. We also chose to allow street market carts, community gardening and roof top parks to exist to preserve the connectivity among the urban complexes. These complexes would be supported by the ancient Qilou structure used only in this region of China. The Qilou influenced the main structure and allows shelter from the elements and enables markets below to thrive. The unique shape of the complexes is driven by the need for all units to have access to balcony space and the need for a central unifying element; the courtyard.

Developable Space Selected

60ft

15ft

Form Follows Function

- Complexes need a central courtyard - Complexes include small and large units - Complexes vary from two to five stories - Angled edges allow for more balcony space - Corners of each plot are open to street vendors

60ft

20ft


Flows

Section

UV UV

SH

Shops

UV

Urban Village Unit

HT

Hutong Unit

PK

Park Space

CT

Courtyard

UV UV

UV

PK

PK

UV

UV

HT

HT

UV

SH

HT

HT

SH

CT


Exterior Skin

Structural Beams

Structural Slabs


Final Model | Our chosen developable space showing the prototype’s interesting form and flows through the complexes


04 The Pullman Food Educatorium Using food to architecturally energize the building

Partner: Jonathan Younce

20


T his project involved the integration of the major crops in the Palouse region of Washington State into the design of our building. The Palouse region is a perfect place

Ga rb

to showcase these crops with the beautiful undulating hills filled with fertile soil. The roof acts as a canvas for these crops as well as a symbol of the building. Our big architectural move was having a huge roof grow the four main crops of the region, where visitors and researchers could go up through the roof to experience the crops high up. The building aims to give a one-of-a-kind experience to visitors and to educate these visitors on the planting, growing, managing, production, and cooking processes of the crops.

eans zo B n a

ntils Le

rley Ba

at he W


3

Original Idea of the Palouse Hills Informing the Roof’s Form

UP

4

5 6 1 2

3

UP

Third Floor Plan

Third Floor Mezzanine Plan

West Elevation 6’Scale: 1/16” = 1’-0” 5’ 10

25

4’ 50

South Elevation Scale: 1/16” = 1’-0” 10

25

nzo Beans ba

ls nti

Ga r

y rle

Le

at he

Ba

W

Soil Depths of Different Crops Influenced the Change and led to the Sloped Roof

50

3’


5’ Di Con

Anchor Bolt Stainless Steel Flashing Vapor Barrier 4” Rigid Insulation

7’ La

Legend

Legend

1 North Entrance Vestibule

1 North Entrance Vestibule

UP

UP

1

1 2 Courtyard

2

UP

2

Gravel

3

3 Administration

3 Administration

4 Storage

4 Storage

UP

3

5 Presentation Theatre

1 Commercial Kitchen 2 Reference Library 3 Second Level View Platform

5 Presentation Theatre

6 Bathrooms

6 Bathrooms

7 East Entrance Vestibule

7 East Entrance Vestibule

12” Foundation Wall 8 Exhibition Space UP

Legend

UP

2 Courtyard

UP

9 West Entrance Vestibule

DN

1

4 Skybridge 5 Learning Spaces

2

8 Exhibition Space

2

9 West Entrance Vestibule

UP

UP

Drain Tile 5

5

4

DN

4

6

3

6 4

3

4

7 7 3’ Reinforced Concrete Footing

DN

9

n

Reinforcing Steel 8

8

UP

UP

DN

Second Floor Plan

First Floor Plan

1

5

UP

DN

Second Floor Plan

Legend

Legend

Legend

1 Scholar’s Breakroom

1 Scholar’s Breakroom

1 Rooftop Plaza

1

2 Scholar Apartment 3, 4, 6 Laboratory

2 Scholar Apartment

2 Elevator

3, 4, 6 Laboratory

5 Indoor Skybridge

3 Conference Room

5 Indoor Skybridge

UP

UP

2

2

3

3 UP

West Section

5

UP

UP

4

4

Scale: 1/16” = 1’-0” 10

25

50

5

5 6

6 1

1

1

Cast


Wall Section Detail

Topsoil

Stainless Steel Flashing

Filter Fabric

Wood Nailer

Moisture Retention Layer Aeration Layer 6” Rigid Insulation Drainage Layer Root Barrier Waterproofing Membrane 3” Concrete Topping Corrigated Steel

Concrete Paneling 2x4” Steel Stud

5x10” HSS

Steel Joist I-Beam Steel Skirting Rubber Gasket

Steel I-Beam

Round Steel Sheathing 1/4” Double Pane Glass

Aluminum Mullion

Anchor Bolt

Spiral Steel Stirrups

Anchor Bolt Stainless Steel Flashing

5’ Diameter Reinforced Concrete Column

Vapor Barrier 4” Rigid Insulation

7’ Lap Splice

Gravel 12” Foundation Wall Drain Tile

3’ Reinforced Concrete Footing Reinforcing Steel

Cast Iron Grate



First Model | Developing an undulating roof that symbolizes the Palouse hills which would have been used as the major architectural icon


Final Model | Further research, practicality and functionality requirements led to a linear sloped roof


05 Reinvigorating Modernism Exploring the modernism clash of architecture on the IIT Campus

28


McCormick Tribune Campus Center Presentation and Discussion On-site

A

fter much research and preparation, I presented on-site of Illinois Institute of Technology's (IIT) McCormick Tribune Campus Center about how this Campus Center clashes with the surrounding Mies buildings. The Center aims to reinvigorate the modernism and urbanism established at the Institute by Mies van der Rohe decades before, as seen in Crown Hall in the above right. However, as technology and architecture progressed over the years, Mies's less is more style of steel-and-concrete structures with glass curtain walls became quiet and lifeless. Koolhaas, being at odds with Mies and his admirers, sought to define what modernism has really become. His bold design includes a 530 ft long steel tube that houses the L train line that runs directly atop the eschewed building as seen in the above left. This new Campus Center completely clashes with the design and principles that Mies developed over his many years at the school. This bold move of Koolhaas delivers a new revitalized modernist icon for the campus.

Crown Hall


06 Block 48 Media Tech Center Integrated project exploring LEED options and activating the SLU tech industry

30


I

Endeavor Construction

Construction Team

DESIGN

DESIGN 5

Jonathan Younce - Architect of Record Kyle Redzinak - Design Architect

ESTIMATE

Partners: Jonathan Younce, Connor Willey, Ephram Harsh, David Marshbank

SITE LOGISTICS

Endeavor Construction was established in 1979 based in the Bay Area of California. Within a few short years Endeavor broke into the growing tech market in our home office in San Jose. When the company sought to expand, it became apparent that the South Lake Union district of Seattle is huge opportunity for a tech market expansion. Partnering with a local experienced architecture firm, Endeavor brings steady financial backing and sufficient bonding power to complete this project proposed by Vulcan. Endeavor has complete commitment to the community in which we work, which we will bring with us to SLU.

SCHEDULE

Experience

DESIGN

SITE LOGISTICS

12

PROJECT TEAM

Sterling Design has experience with tech projects in the greater Seattle area and commits to bring the best value possible for its client and community, utilizing lean methodologies and BIM software in all projects. Sterling Design has been in the Seattle area for 20 years, designing buildings for functionality and sustainability unique to the area. Partnering with Endeavor Construction, Sterling Design will get the financial backing to pursue large designbuild projects in the South Lake Union area.

Connor Willey - Project Executive Ephram Harsh - Head Esitmator David Marshbank - Sr. Project Manager SCHEDULE

Experience

W

ESTIMATE

ESTIMATE

STERLING - ENDEAVOR

Integrated Project Team Kyle Redzinak - Design Architect Jonathan Younce - Architect of Record

PROJECT TEAM

Sterling Design

Architectural Team

PROJECT TEAM

n this integrated project, my partner and I were paired with three 4th year construction management students in which we worked throughout the semester to develop a project proposal for a Tech Center. My partner and I were responsible for the design and construction documents and the construction managers STERLING were responsible for the estimate, schedule and site logistics for the project. DESIGN


aphics being the most high tech ocessing unit being the central hub of the site T he design concept was based on the principles of technology and what technology means to us. Computers come to mind being when we think of technology in which buildings were divided into the three major wer supply provided by our the museum spaces ofcomponents large screens that comprise a computer: the CPU, GPU and PSU. These different components became a way to group and organize our program on the site which was thought of as the motherboard that these functions plug into.

kways buildings the GPU: between High Tech functions the of our program; representingrepresent the most technological part ofwires a computerthat connect these pieces together and ho CPU: Existing Discovery Center; acting as the central hub for the site uildings work together to create cohesive design and interesting experience PSU: Museum; because the size of this building architecturallya powered the site Connections: Walkways between the buildings; represent the wired connections between these computer components

Project Site

Motherboard Walkway (Wired Connections) Museum Zone

High Tech Zone Discovery Center

GPU

CPU

PSU


existing park DESIGN

Passerbys will enjoy an exciting LED display coming from the exterior skin of the structures and the five digital trees highlighted in the center of the prominades

A major part of this project was activating the site through design, achieving LEED Gold or higher, a well thought out skin relating to the design concept, the reuse An outdoor patio connected to the cafe allows passerbys to relax with some food or drinks made by robots

2.3| Exterior Skin Connecting Concept w/ Design

2.3| Exterior Skin

building

Five digital trees enhance the site’s montray and interest with their intricacy, Enhancing Pedestrian Experience height, vegetation and interactive LED lighting system that peaks an untapped Five digital trees populate the site that are accented by exciting LED interested in people that experience these trees (seen below)

ESTIMATE

The perforated metal panels are directly inspired by the sleek look of a computer case. This element was used to fully integrate the concept with the panelling protrudes the passerbys of The the building’s Discoveryexterior Centerperforated and many skin value added options forabove the owner to improve design to give the building a smooth and unique texture. envelope the pedestrian the building withoutof actually the thetoLEED certification and into improve the quality designbeing and in construction.

Recycled Steel Hollow Tube Supportive Tube Steel Rings

10’ - 0”

Jonathan Younce 2338 8th Ave Seattle, WA 98121 206-651-1978 jyounce@sterdes.com

Aluminum Handrail

Trex Decking

With the Discovery Center being modular in nature, it was made to be disassembled and relocated with relative ease. We want to take full advantage of this and disassemble the whole center and adaptively reuse the curtain walls, structural steel beams and siding as well as recycling the concrete foundation. All these reuses helps the project achieve a higher LEED rating, adds value and innovation to the construction process and helps 22 SE NW Digital Tree Plan Digital Tree Section close1the loop energy is 2 5/16"and 5/16" = 1'-0"for some of the materials so that time, money = 1'-0" saved through this process. To help achieve a LEED Gold certification for this project, the Discovery Center’ s exterior walls, steel beams and glass curtain walls are salvaged and reused

Virginia Creeper Planted at Base

Structural Concrete Slab

Reuse of the Discovery Center

No.

Description

SITE LOGISTICS

2.4| Reuse of the D.C.

Steel Supported Pedestrian Bridge

PROJECT TEAM

29’ - 4”

6’ - 0”

Date

Enhancing Performance VULCAN

DESIGN

SLU Block 48 The perforated metal panels are not only recycled, but act as a shading Digital Trees device for parts the curtain wall on the East and South facades. This Exterior of Skin: Enhancing Performance These exterior panels are made from recycled steel, acting as a shading device that still allows light in butthe significantly ultimately allows light to pass through but significantly reduces heating loa Enhancing Performance reduces the heating load on the building which in turn saves on cooling the building’ s interior that the huge glass panels can let in. TheA9.0perforated metal panels are not only recycled, but act as a shading device for parts of the curtain wall on the East and South facades. This ultimately allows light to pass through but significantly reduces the heating loa that the huge glass panels can let in. Project number Date

Drawn by

Checked by

Scale

Project Number Issue Date Author

Checker

5/16" = 1'-0"

25/03/2015 15:38:23

17’ - 6”

LED Light Strips Mounted on Tube Steel

Kyle Redzinak 2338 8th Ave Seattle, WA 98121 206-651-1981 kredzinak@sterdes.com

SCHEDULE

Virginia Creeper Bushes at Top

The perforated metal panels are directly inspired by the sleek look of a computer case. Skin: This element was Concept used to fully integrate the concept with the Exterior Connecting w/ Design exteriorthe perforated metal panelsamimic the casing and of a computer that further connects design toThe give building smooth unique texture. the architecture to the idea of the buildings being pieces of a computer

displays and vegetation growing up the intricate steel tubing

Recycled Steel Hollow Tube

Connecting Concept w/ Design

ESTIMATE SCHEDULE

Exterior Walls

SE NW

24

SITE LOGISTICS

Steel Beams Curtain Wall

SE NW

23


Construction Documents: First Floor

1

2 11' - 9"

4

3

63' - 0 1/2"

20' - 9 1/2"

19' - 11"

6

5

47' - 10"

35' - 3 1/2"

72' - 2"

9' - 9 1/2"

8' - 2"

7

Kyle Red 2338 8th Seattle, W 206-651kredzinak

69' - 8"

9' - 6"

6' - 3"

44' - 2"

8

26' - 3 1/2"

40' - 0"

10' - 7"

16' - 0"

13' - 1 1/2"

13' - 1 1/2"

5' - 0 1/2"

Jonathan 2338 8th Seattle, W 206-651jyounce@

1

2

1

2

A2.1

A2.2

A2.2

A5.0 W2

A 30' - 9 1/2" 103A

A10.2

107C

UP 101 Atrium

101C

101B

101A

W5

4 A10.4

W5

A5.1

3' - 7 1/2"

18' - 8 1/2"

1 A5.2

18' - 8 1/2"

4

5

7

A10.0

A10.0

A10.0

4

6

A10.2

A10.0

6

D

V

A10.1

1

3 A10.0

18' - 8 1/2"

C

W5

2

8' - 2 1/2" 1 A10.2

5' - 11" 3' - 8"

127

118B

12' - 11"

105C

A2.1

A10.2

A10.3

14' - 5 1/2"

F1 P1

102 Elevator

102A

1

71' - 3"

P1 P1

2

Des

15' - 7 1/2"

103 Bathroom

F1

107A

6 A8.0

F2

10' - 2"

W5

16' - 2 1/2"

W5 W5

107B

107D

129A

8

118A

F1

112A

107 Restaurant

2

No.

A5.3

104 Bathroom

106A

UP

113A

F1

2 A2.0

F1

W5

14' - 2"

3

107E

112 Tenant Space

B

104A

W5

117 Tenant Space

2

F1

7' - 2 1/2"5' - 0 1/2"

10 A10.3

A10.2

A10.3

113 Analog Store

105 Offices P1

W5

8

A10.3

F2

A10.2

118 Tenant Space

128 Elevator

105B

106 Stairs UP

114A

W5

A2.0

127A

117A

128A

9

118C

W5

1

4 A8.0

127

5 A8.0

114 Restroom

W5

A10.3

126A

UP

117B

120C 9

123 Elevator 119 Stairs 123A

105A

115 Restroom

115A

129F

1 A9.0

P1

W5

7

119A

A10.4

UP

126 Restroom

W3

115B

232 Restroom

129 Corridor

129B

W2

120A

W3

113B

5

F1

2

129C

W3

P1

10' - 0 1/2" 12' - 7"

W5

3 A8.0

120 Tech Store

A5.0

W2 W3

W2

120B

S1

P1

204E 124 Elevator

F2

S1

W2

A10.3

121B

UP

S1

2 A9.0

125A

121 Amazon Reception

W2

4

122A

W3

P1 W5

F1

121A

W5

12' - 0"

S1

A5.1

W5

1

2 A8.0

W5

A10.3

125 Restroom

122 Restroom

S1 3

SLU

A5.3

27' - 7 1/2"

30' - 0"

5' - 5"

11' - 10"

11' - 10"

11' - 10"

11' - 10"

11' - 10"

1st F 1

1st Floor 1/16" = 1'-0"

Project number

N

Date Drawn by Checked by

Scale


Construction Documents: Second Floor 1

2

1

2

33' - 6 1/2"

3

63' - 0 1/2"

4

35' - 3 1/2"

1

6

5

47' - 10"

72' - 2"

2 1

26' - 3 1/2"

21' - 1 1/2"

2

33' - 6 1/2"

3

63' - 0 1/2"

4

10' - 4 1/2"

6' - 11"

10' - 0"

16' - 5"

6' - 9 1/2"

7' - 3"

30' - 6"

8

7

40' - 0"

72' - 2"

26' - 3 1/2"

21' - 1 1/2"

1

69' - 8"

6

5

47' - 10"

35' - 3 1/2"

8

7

40' - 0"

16' - 5"

6' - 11"

10' - 0"

10' - 4 1/2"

69' - 8"

6' - 9 1/2"

7' - 3"

Kyle Red 2338 8th Seattle, W 206-651kredzina

30' - 6"

2

1

2

A2.1

A2.2

A2.2

A5.0 W2

A9.0

204D

2

Roof Slope 2:12

8' 14' - 6" - 2"

A10.4 2

3 A10.1 Open To

11' - 10"

11' - 10"

4

5 A10.1

11' - 10"

30' - 9 1/2" 14' - 2 1/2" 8'14' - 1- 1/2" 6 1/2" 14' 14'- 7" - 2 1/2"

Des

C D

4' - 0 3' 1/2" - 1 1/2"

A10.1

11' - 10"

W4

A5.2

11' - 10"

7 A10.1

1 1 A10.0

A5.3

11' - 10"

3' - 3 1/2"

11' - 10"

Below

W4

18’ 8”

18’ 8”

F1

R1

10' - 6 1/2" 18’ 8”

203C

202 203B Atrium

11' - 10"

A10.4

A10.2

A5.1

A10.1

3

5

2

1

2

A10.0

11' - 10"

W4

14' - 2"

A5.2

W4

1 1 A10.0

14' - 6 1/2"

P1

6 A10.3

DN

11' - 10"

No.

C D

4' - 0 3' 1/2" - 1 1/2"

W4

W4

2

7

30' - 9 1/2"

8' - 1 1/2"

206A 1 A2.1

A2.0

P1

A10.1

W4

W2 18’ 8”

W4

18’ 8”

R1

A10.2

201A F1

F1

A10.4

A10.2

7

Open To Below

3

5

201 Tenant Space

W4

230A

W1 W4

Elevator

18’ 8”

W4

203A

206 Elevator

71' - 0"

A10.4

Des

71' - 0"

W3

F1

6 A10.2

203C

203 DN 202 203B P1 Gallery Space Atrium

A2.1 2

A5.3

No.

10' - 4 1/2"

206A 1

DN

W4

Roof Slope 2:12

A2.0

W1

2

DN

204A

2' - 9 1/2" 7' - 11 1/2" 14'5'- -7"5 1/2"

P1

W2

201A

P1

2

B

10' - 4 1/2"

W2

A10.2

F1

204B

202A

W4

R2

W2

8'R2 - 6"

207A

208 Kitchen

W3

14' - 6 1/2"

DN

F1

P1

W1

1 A10.1

7

P1

203A

206 Elevator

W4

14' - 6 1/2" 1' - 3"

A10.4

2 A5.3

W1

204C

204A

204 Gallery Space 203 Gallery Space

DN

UP

1

W2

W3

202A

Jonathan 2338 8th Seattle, W 206-651jyounce@

A B

W1

P1

DN W3

204B

P1

10 A10.2

W3

205A

1' - 3"

P1

230A

W5

1

207

207A Stairs

DN

W3

Elevator

6

A2.0

R3

DN

F1

A10.3

1

6

201 Tenant Space 230 Restroom

A10.3 5

208 Kitchen

UP

P1 F1

P1

F4

W5

2 A5.0

A5.2

R3

A10.2

F1

1

204C

S1

A10.1

DN

DN

UP

1 A10.4

W3

205A

W3

F4

204 Gallery Space W2

204D

S1

A10.2

R3

R3

S1

R2 5

A2.0

S1

P1

1 A10.3

10

F3

230 DN 209 Restroom Brick Lobby

A10.3

207 Stairs

2

F1

2

F4

DN

W2

R2

A5.0

A5.2

S1

A9.0

UP

210 Elevator

1 A8.0

S1

2' - 9 1/2" 7' - 11 1/2"5' - 5 1/2"

2

F3

W2

W2

F4

1

A2.2 S1

2

209 DN Brick Lobby

A5.1

A2.2

S1

P1

210 Elevator

1 A8.0

W2

A2.1

1 A5.0

2

S1

W1

1

1

A

W2

1 A10.3

2

A5.1

Jonathan 2338 8th Kyle Red Seattle, 2338 8thW 206-651Seattle, W jyounce@ 206-651kredzina

2 S1

2

2

A10.0

A10.1

1 A5.3

3

4

5

A10.1

A10.1

A10.1

V

2 A5.1

SLU

10' - 6 1/2"

3' - 3 1/2"

1

2nd Floor 1/16" = 1'-0"

V 2nd F SLU

N

Project numbe

N

1

Date

2nd Floor 1/16" = 1'-0"

2nd F

Drawn by

Checked by Project numbe Date Drawn by Scale Checked by


Concrete and Steel Floor Deck

Construction Documents: Section

3rd Floor 24' - 0"

GFRC Rainscreen 202 Atrium

2nd Floor 12' - 0" 101 Atrium

1st Floor 0' - 0"

1

Museum Section 1/8" = 1'-0" Middle

South

North

A

B

---

Membrane Roof

C

D

GFRC Rainscreen GFRC Rainscreen Membrane Roof Amazon Roof

Concrete and Steel Floor Deck

31' - 1 1/2" 3rd Floor

209 Brick Lobby

24' - 0" 2nd Floor Amazon 201 Tenant Space

19' - 1 1/2" 2nd Floor

122 Restroom

12' - 0"

120 Tech Store 118 Tenant Space

Glass and Aluminum Curtain Wall 1st Floor 0' - 0"

2

Amazon Brick Section 1/8" = 1'-0"


Construction Documents: Elevation

A

24’ - 9”

B

57’ - 2”

C

25’ - 0”

D

Museum Roof 57' - 0"

Steel Digital Tree

Recycled Perforated Steel Panel

1 A5.1

GFRC Rainscreen

2 A5.3

2 A5.0

Amazon Roof 31' - 1 1/2"

Recycled Perforated Steel Panels

2nd Floor Amazon 19' - 1 1/2"

Aluminum Storefront Glazing System

2nd Floor 12' - 0" 1st Floor 0' - 0"

1

South Elevation 1/8" = 1'-0"


Construction Documents: Wall Section Details A

Membrane Roof Applied to Rigid Roofing Insulation on Corrugated Metal Deck. Deck supported by Open Web Steel Joists

1 A6.0

Membrane Roof Applied to Rigid Roofing Insulation on Corrugated Metal Deck. Deck supported by Open Web Steel Joists

1

Amazon Roof

Amazon Roof

31' - 1 1/2"

31' - 1 1/2" 4 A6.0

Precast GFRC Rainscreen Clipped To Sheathing on Steel Stud Framed Wall Anchor Bolted to Floor Slab

Precast GFRC Rainscreen Clipped To Sheathing on Steel Stud Framed Wall Anchor Bolted to Floor Slab

3rd Floor

6 A6.0 2 A6.0

3rd Floor

Concrete Floor Deck Cast in Place on Corrugated Steel Deck Held Up by WF Steel Beams

24' - 0"

24' - 0"

5 A6.0

2nd Floor Amazon 19' - 1 1/2"

No 2nd Floor Amazon 19' - 1 1/2"

Concrete Floor Deck Cast in Place on Corrugated Steel Deck Held Up by WF Steel Beams

Aluminum Framed Curtain Wall Attached via anchor bolt to Floor Deck 2nd Floor

2nd Floor

12' - 0"

12' - 0"

30" Concrete Structural Slab

30" Concrete Structural Slab 3 A6.0

1 A6.1

1st Floor 0' - 0"

1st Floor 0' - 0"

Pro

Dat

1

Amazon West Wall 3/8" = 1'-0"

Dra

2

Amazon South Wall At Tech Store 3/8" = 1'-0"

Che

Sca


Construction Documents: Detail Callouts A

A

A

Sheathing Sheathing

Spacing Clip

Rigid Insulation

Waterproof Membrane Flashing Cap Membrane Roofing

Insulation

Steel and Concrete Deck

Interior Finish

GFRC Panel Securing Clip Flashing

Waterproof Membrane

Kyle Redzinak 2338 8th Ave Seattle, WA 98121 206-651-1981 kredzinak@sterdes.co

Treated Sill Plate Anchor Bolt

Jonathan Younce 2338 8th Ave Seattle, WA 98121 206-651-1978 jyounce@sterdes.com

Securing Clip

GFRC Panel Securing Clip

GFRC Corner Section

Rubberised Membrane WF Beam

Finish Floor

Furring Rail

Open Web Joist WF Steel Beam 30" Structural Slab

Amazon Rear Parapet

1

Amazon Rear Overhang

2

1" = 1'-0"

3

1" = 1'-0"

1

Amazon Rear Base 1" = 1'-0"

No.

Description

1

Wood Nailer Flashing Single Ply Roof Membrane

Sheathing

Rigid Insulation

Waterproof Membrane

GFRC Cast Top Cap Flashing

Corrugated Steel Deck Securing Clip GFRC Panels Securing Clip

Membrane Roof Rigid Insulation

GFRC Panel

Insulation Anchor Bolt

Securing Clip

Rigid Insulation

M1 Caulk and Backer Rod

VULC

SLU Blo

Corrugated Steel Deck

Lock Strip

Deta

Open Web Steel Joist

Open Web Joist Waterproof Membrane

Wood Nailer Membrane Roof

Waterproof Membrane

Finish Floor

Open Web Steel Joist

Adjustment Clip

Sheathing

Curtian Wall Glazing

Acoustical Drop Ceiling

C-Channel Spacer Aluminum Mullion

Project number

Pro

Date Drawn by Checked by

4

Amazon Indent Parapet 1" = 1'-0"

5

Amazon Wall/Roof Junction 1" = 1'-0"

6

A6.0

Tech Store Roof Parapet 1" = 1'-0"

Scale


Construction Documents: Detail Callouts D

D

D

Metal Flashing Concrete and Steel Deck

Wood Nailer Rigid Insulation

WF Steel Beam

GFRC Panel

Membrane Roof

Finish Floor Glass Door 30" Structural Slab

Kyle Redzinak 2338 8th Ave Seattle, WA 98121 206-651-1981 kredzinak@sterdes.com

Securing Clip

Door Sill

Jonathan Younce 2338 8th Ave Seattle, WA 98121 206-651-1978 jyounce@sterdes.com

Waterproof Membrane Corrugated Steel Decking Insulation Aluminum Mullion

Perforated Metal Panel

Open Web Steel Joist

HSS Support Frame

Aluminum Mullion System

Sheathing Perforated Metal Panel

Cast GFRC Corner Double Pane Curtain Wall

Adjustment Brackets Securing Clip Waterproof Membrane

1

Tenant Solid Front Overhang/Curtain Wall Junction 1" = 1'-0"

2

Tenant Solid Front Curtain Wall Base

3

1" = 1'-0"

Tenant Glass Front Parapet

No.

1" = 1'-0"

Description

D

D

Metal Flashing Metal Roof Rigid Insulation Double Glazing

Concrete and Steel Deck

Wood Nailers

Finish Floor

Aluminum Mullion System

Aluminum Mullion System

Shiplap Siding

Lockstrip

Sheathing

Steel Detail Panel

Lock Strip Double Glazed Curtain Wall

Securing Clip

Cast GFRC Corner Panel

Detai

Anchor Bolt

WF Steel Beam Waterproof Membrane

SLU Bloc

Wood Blocking

Insulation

Double Glazed Curtain Wall

VULCA

Project number

30" Structural Slab Steel Furring Rail

Date

Adjustment Bracket

Drawn by

Proje

Checked by

4

Tenant Glass Front Overhang/Curtain Wall Junction 1" = 1'-0"

5

Tenant Glass Front Curtian Wall Base 1" = 1'-0"

6

A6.2

Dormer Ridge Detail 1" = 1'-0"

Scale


Construction Documents: Wall Assemblies W1 GFRC w/ Steel Panel

Gypsum Board

R1 Metal Roof

F1 Concrete Slab

Metal Roofing Wood Stud

BATT Insulation

Moisture Barrier Rigid Insulation Corrugated Metal Decking OWSJ

Steel Stud Moisture Barrier

16” Structural Concrete Slab

Steel Angle Clamp

Wood Joist

Furring Clip GRFC HSS Perforated Steel Panel

W2 GFRC

F2 Concrete Slab w/ Terrazzo 1” Polymer Modified Cement Terrazzo Reinforcing Mesh Embedded in Flexible Membrane

Gypsum Board BATT Insulation

Kyle Redzinak 2338 8th Ave Seattle, WA 98121 206-651-1981 kredzinak@sterdes.com

R2 Membrane Roof

Rigid Insulation Corrugated Metal Decking

16” Structural Concrete Slab

Steel Stud

Jonathan Younce 2338 8th Ave Seattle, WA 98121 206-651-1978 jyounce@sterdes.com

Moisture Barrier

OWSJ

Moisture Barrier Steel Angle Clamp Furring Clip GRFC

W3 Shiplap Siding

F3 Elevated Concrete Patio w/ Trex Gypsum Board

1.5” Trex Decking Furring Concrete Topping

BATT Insulation

Corrugated Steel Sheet

R3 Membrane Roof w/ Trex

1.5” Trex Decking Furring Vapor Barrier Rigid Insulation

No.

Description

Date

Wood Stud Moisture Barrier Shiplap Wood Siding

F4 Pedestrian Bridge Walkway

W4 Curtain Wall w/ Panel

1.5” Trex Decking Engineered Steel Beam

4

Roof Assemblies 1/16" = 1'-0"

S1 Digital Tree

Reflecting Panel

Aluminum Mullion Double Glazed Low-e Glass HSS Steel Angle Clamp Perforated Steel Panel

W5 Curtain Wall

2

Floor Assemblies

LED Strip

1/16" = 1'-0"

P1 Partition Wall

5 Gypsum Board

Wall Cavity

Double Glazed Low-e Glass

Wall Assemblies 1/16" = 1'-0"

SLU Block 48

Special Assemblies 1/16" = 1'-0"

Elevations

Steel Stud Aluminum Mullion

Gypsum Board

1

VULCAN

Round HSS

Project number Date

Project Number Issue Date Author

Drawn by

3

Partition Assemblies

Checker

Checked by

A7.0

1/16" = 1'-0"

Scale

1/8" = 1'-0"


Rainscreen

This rainscreen system is based on the simplicity of how wooden boats look on the exterior and wood was specified to further the relationship between building and wooden boats. The rainscreen assembly uses a simple system of furring strips every 24 inches O.C. with patent pending clips that allow the rainscreen panels to slip and clip in place with no exposed fasteners. Water channels also run down the rainscreen from the gutters on the outer face for people to see and experience the path of the water down to an exposed basin at the base.

Roof Joist

Aluminum Gutter Douglas Fir Rainscreen Panel

Rainscreen Clip Air Gap Douglas Fir Furring Strip BATT Insulation

Rainscreen Clip BATT Insulation Douglas Fir Furring Strip Douglas Fir Rainscreen Panel Air Gap Anchor Bolt Flashing w/ Drip Edge

Collected Rain Water Steel Basin Concrete Foundation

07 Design + Detailing

Designing and detailing a rainscreen, window, door and stair for the Center for Wooden Boats

42


Window

The window design was based on the fact that the space on the second floor would be used for children which made a nice place for floor to ceiling glazing for unobstructed views. The glazing starts at the floor and five feet up has three separate hopper windows. This allows for airflow in and are high enough to prevent injury to children. The window unit is recessed from the rainscreen to give a slight shadowed profile and allow the window to have a more expressive presence. Wood was specified to match the rainscreen material and directly respond to the building’ s use; the Center for Wooden Boats.

Double Header Douglas Fir Rainscreen Panel Douglas Fir Furring Strip Rainscreen Clip Metal Strip Channel Douglas Fir Window Trim Aluminum Handle Glazing Pocket Glazing for Hopper Window

Glazing Glazing Pocket Glazing Glazing Pocket Douglas Fir Mullion Rubber Stiffening Strip

Douglas Fir Mullion Douglas Fir Sill Rainscreen Clip Douglas Fir Furring Strip Douglas Fir Rainscreen Panel

Glazing

Air Gap BATT Insulation


Door

Doors are quite frequently plain and very predictable. Designing with this in mind, wood carved inlays are placed in the door for adult and children sized hands, allowing children a unique experience of being able to open the door on their own. The door location remained and a curtain wall wraps the corner of the sides to give a bright and airy feeling to the entry. The door material is made of thin sheets of corten steel that would naturally change color over the years in the elements of the weather. The steel sheets use exposed fasteners and the sheets continue above the door, giving the appearance of a much larger and heavier door than it really is.

1/8” Corten Steel Sheet Rigid Insulation

HSS Header

Weather Strip 1/8” Corten Steel Sheet Rigid Insulation Steel C-Channel

1/8” Corten Steel Sheet Rigid Insulation Pivot Hardware

Glazing Glazing Pocket

Steel C-Channel

Douglas Fir Trimming

Weather Strip Corten Steel Frame

Douglas Fir Framing

Douglas Fir Furring Strip

Corten Steel Frame Weather Strip

Wood Framing

Steel C-Channel

BATT Insulation

Pivot Hardware

Wood Sheathing

1/8” Corten Steel Sheet

Air Gap Douglas Fir Rainscreen Gypsum Board

Rigid Insulation


Stairs

Keeping in line with the concept of the door, we designed a stairwell with two sets of stairs: one for children and the other for adults. The children's stair have a shallower rise and run of 4 to 5 and the adults stair has a typical rise and run of 7 to 10. Both sets of stairs are supported on one side with c-channels that are welded to corten steel panels that run the perimeter of the stairs and supported by corten steel rods that screw into a steel panel hanging from beams in the overhead structure. The main visual experiential element of the stairs is the 'Swiss cheese' corten steel panels in the center. These holes are covered with Plexiglas and the landings in the children's stair have Plexiglas pop-outs at different heights that makes going up stairs more enjoyable and memorable for children.

8"

Roof Beam 12"

1.75"

Metal U-Bracket

.5"

Bolt w/ Cap

4.5"

2.25"

Corten Steel Panel

.5"

1"

1.25"

Corten Steel Panel

.5"

Metal H-Bracket 8"

Bolt w/ Cap

2.5"

.5"

3.5"

Corten Steel Panel

.5"

Metal U-Bracket 1"

4.5"

1"

Bolt w/ Cap Floor

1" 1.25"


Seattle, WA

Architectural Photography Pictures showcasing my interest in skylines, landmarks, patterns, and textures

2008 - 2015

Nashville, TN

46


Chicago, IL

San Francisco, CA








2011-2015

Undergrad World Travels

Seattle, Florence, Rome, San Francisco, Honolulu, Chicago, Nashville

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Architecture Related Travels

Personal Trips Washington State University Birth Location

1

54


2010 Out-of-State University Visits

2014 4th Year Architecture Study Tour

Los Angeles + San Diego, CA

Chicago, IL

Through the high school program College Bound, selected students were flown to California to tour UCLA and SDSU where I started getting an idea of where I wanted to go after high school and what large universities looked like.

2012 Study Tour + Site Visit Seattle, WA

Our studio professor for the semester gave a small tour of Seattle and then we visited our proposed site for our studio project for the semester. I learned a lot more about Seattle and this was my first site visit in which I gained a wealth of knowledge and an understanding on how to use the site for inspiration. I used this knowledge in the design process which played a huge roll in my final design.

2013 Summer Study Abroad Florence + Rome + Siena, Italy

15 day trip in which I studied the works in museums and historical architecture. My big assignment for the trip was to give an on-site presentation on the Pantheon and follow up the trip with an extensive paper written about the Pantheon. I gained a true perspective into the ancient Roman culture, architecture and art and found a passion to travel internationally to see the world's most prominent architecture. This trip also opened up my eyes to how other countries function and really challenges me to think beyond my understanding of just how the U.S. functions.

2013 3rd Year Architecture Study Tour San Francisco, CA

Class wide trip to explore San Francisco's architecture while giving a live group presentation at the location of our assigned site. I acquired an appreciation of San Francisco's architecture and learned a lot about the history and culture of the bay area and how the region has a one-of-a-kind feeling to it.

2014 AIAS West Quad Conference Honolulu, HI

My first AIAS related trip where fellow WSU students, myself, and other architecture students from around the western quadrant of the U.S. attended local architecture tours, presentations, lectures, and networking events. My group and I also participated in the 19th annual sand castle esquire where we created something out of sand and beach materials that echoed the theme 'cultures of the world.' I learned a lot about Hawaii's unique and different architecture and culture only found on the Hawaiian islands. The networking opportunities allowed me to make friends with similar passions and interests who will be life-long acquaintances.

Class wide trip, also open to interior designer, landscape architecture and construction management students where we explored the intense architecture of Chicago as well as give a solo live presentation at the location of our assigned site. I came away with a surprising perspective of Chicago, a city with rich culture and extensive architectural history. I was largely inspired by the scale and variety of design types, but more so by the Chicagoan's appreciation and admiration for the city's architectural works which is seldom seen in any city.

2014 AIAS Forum Conference Nashville, TN

This AIAS trip was much like the West Quad Conferences but is the largest gathering of architecture students in the world and draws students from all architecture schools in the nation. The conference was hosted by the University of Tennessee - Knoxville in which I participated in firm tours, a city wide scavenger hunt, Freedom By Design awards ceremony, presentations, New Years Eve Beaux Arts Ball, and many other activities and tours of various museums and buildings. This was my first architecture trip to the eastern part of the U.S. and I gained a lot of knowledge of the city's love of music and how much Nashville is developing. Like all the other AIAS trips, I made friends with fellow architecture students from around the nation where we talked about our experiences and aspirations in the field of architecture.

2015 AIAS West Quad Conference Seattle, WA

Being the Treasurer of the WSU AIAS Chapter, I was heavily involved with the planning and execution of this conference. I was involved in the making of the nametags and helped lead two firm tours; Callison and BCJ and a tour to the Chapel of St. Ignatius. I also helped in the registration process and the planning and setup for the Beaux Arts Ball hosted by UW and WSU at Gould Hall; UW's architecture building. Being apart of the planning and execution of the conference was a great experience where I was able to meet more students and architects and gain valuable connections that will make me a better professional. The involvement I had also helped me see what it takes to plan such a large event and helped me become a better leader as a student and an emerging professional.

Architecture Related Travels 2010 - 2015

Seattle, Florence, Rome, San Francisco, Honolulu, Chicago, Nashville


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