JOSEPH SCHERER Undergrad Portfolio
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CARPENTER’S ELIPSE Architectural Foundations I Fall 2016 Professor Joseph Choma
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Through the primitive method of using simple tools(string and nails), spaces are created with the combination of multiple elipses. This simple carpenter method creates an analog parametric model. Parametric modeling is the use of parameters and rules in order to create a series of variations. It takes a look at what happens when you change the length of the string or the location of a pin. These layered variations create a parametric composition.
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SHAPES CARVING SHAPES: BOOLEAN Architectural Foundations I Fall 2016 Professor Joseph Choma
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The boolean operation occurs when two shapes overlap each other in space to create an intersection. Each shape can be used to carve out of the other or overlap to form a third shape. This model was created with multiple tools: a wire frame model, digital model, and a solid/void model. The end result produced a radicalized cube through boolean operations that contained complex spaces and voids.
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PLANAR SURFACE VOLUMES Architectural Foundations I Fall 2016 Professor Joseph Choma
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This project was based off the idea of folded planar material. The idea is to take a flat material such as paper and to radicalize it into an intricate three dimensional rigid structure. Folding begins to introduce the idea of triangulations built into folded systems that can help divide and distribute loads more evenly, reducing localized stress conditions. The pattern above was 65 inches long and it was used to create the final model.
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CURVES FROM LINES Architectural Foundations I Fall 2016 Professor Joseph Choma
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A Ruled Surface is a surface generated by moving a straight line with the result that through every point on the surface a line can be drawn lying wholly in the surface. This technique creates the illusion of curves when using only straight lines. Using this technique a drawing was created and then a model was produced using the drawing as inspiration.
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WHERE EARTH MEETS SKY Architectural Foundations I Fall 2016 Professor Joseph Choma
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This project took the Boolean process further to create a hilltop structure that has different occupiable spaces. There are smaller spaces for at least three people and a larger space for a large group of people. The model was made using the rigorous process of carving out the spaces using intersecting shapes.
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13 | WHERE EARTH MEETS SKY
As part of this project a joint model was created at half scale. For my joint I decided to do a small piece of the surface of the structure and make it out of concrete. The joint had a 2 foot by 2 foot base and was 6 inches deep.
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CHARLOTTE MUSEUM Architectural Foundations II Spring 2017 Professor Clarissa Mendez
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This project was proposed as a 30,000 square feet architecture museum located in downtown Charlotte, Nort Carolina. My design for this project came through a process of analyzing a precedent and then interpretting it to use in my own exploration. I wanted my design to bring people into the structure and captivate them with the open spaces and the lightness of the structure. During the design process I created a variety of models to show different characteristics that I chose to focus on.
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circulation
density
spacial
form
17 | CHARLOTTE MUSEUM
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2
2
1
1
2
1 3
3 3
First Floor
Second Floor
Third Floor
1 - Entry 2 - Back Of House 3 - Auditorium 4 - Bathroom
1 - Back Of House 2 - Bathroom 3 - Exhibit
1 - Back Of House 2 - Exhibit 3 - Bathroom
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CHAKRASANA
Research: Design Topology Lab Summer 2017 Professor Joseph Choma Team: Wilson Marshall, Claire Hicks, Sarah Nail
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Original Pattern
Tape Pattern onto Fiberglass
Remove Tape
Fold Along Fabric Seams
Construct Temporary Structure
Deploy & Apply Resin to seams
This research project developed a process that allows fiberglass to fold like paper. By selectively coating resin on the fiberglass cloth, parts can fold along the fabric hinges. This technique eliminates the need for any molds or fasteners, while allowing for infinite variations and flat-packing capabilities. This research also suggests a means for fiberglass to transition from being a secondary component to a primary building material. This structure was an accordion arch based on variations of the folded plate structure. This lightweight, 400 pound, pop-up pavilion was designed, fabricated by hand, and installed by five people within 30 days. The intricate pattern was composed of a total of 875 folds.
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MONTEPULCIANO Intro to Urban Context Fall 2017 Professor George Schafer
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Elevation from Via Ricci
Front Elevation
Back Elevation
Transverse Section
Elevation from Via Del Pie al Sasso
Longitudinal Section
Section A1
Section B2
This project was proposed as a cantina located in Montepulciano, Italy. The design came about through a thorough process of analyzing the surrounding site conditions and precedents and then taking those ideas to use in my design. The site was an infill site, surrounded on all sides by roads and buildings. The main points for my design were creating views of the surrounding landscape, connecting the higher level to the lower level, and creating different spaces for different group sizes of people.
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23 | MONTEPULCIANO
The following spreads show massing and structural models as well as renderings. The renderings show the use of the spaces and the views that each space would provide. The images also show different views of the sky and surrounding landscape that I tried to capture.
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North Side Rendering
25 | MONTEPULCIANO
North Side Rendering
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SHIFTING FOLDS Fluid Studio Spring 2018 Professor Dave Lee 8 Person Team 27
NW
WIND
SE
72° SUMMER SOLSTICE
BROOKLYN
WILLIAMSBURG
NAVY YARD MANHATTAN
PARKING ENTRANCE KENT AV
ENUE
26° WINTER SOLSTICE
CONCRETE PAVERS
WOOD BOARDWALK
PUBLIC GREEN SPACE
This project was about creating an office space that brings natural light into the building and to the workers. Natural daylight is key to a healthy workspace and lifestyle, but not all natural light is ideal. Direct, southern sunlight can cause discomfort due to glare, heating, and harmful rays. Yet, indirect Northern light is ideal for a comfortable work environment. We optimized the lighting conditions of the Brooklyn site by using the angled faces of a folded façade system to capture soft northern light and block harsh southern light. Programmatically, the building is subdivided into 6 stacked “neighborhoods” that promote community and shared space. Each of these smaller subdivisions integrates private offices with shared collaboration space, an office lounge, and outdoor decks for ultimate comfort and wellness. All of the diagrams and images were created with the cooperation of other team members. FOLDING | 28
COOLER WARMER
PERFORATED METAL PANELS DIFFUSE LIGHT DOUBLE SKIN FACADE ACTS AS THERMAL BARRIER AI
WIND IS CAPTURED WITHIN FACADE
W
WOOD PANELLING CREATES ‘WARMER’ ENVIRONMENT DURING COLDER SEASON
IN
C IR
FAC
C U L ATE S
A D E S YSTE M
WARMER COOLER
29 | SHIFTING FOLDS
IT H
R
Behind the folded panel system on the face of the building, a double skin faรงade creates a space between the exterior skin of shading panels and the glazing envelope. This space acts as an insulating layer from direct sun and wind, which then creates a more energy efficient interior space. Additionally, the gap created is used as an open air greenspace that promotes time spent outdoors, allowing employees to work in the fresh air just steps away from their offices.
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CANOPY
Fluid Studio Spring 2018 Professor Dave Lee
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Connecting two halves of City
Highlighting River
Impose River Shape on Site
Position Buildings
Canopy Ground Connections
Canopy Over Main Site
This project explored how the design a food market, as a community hub that can strengthen social connections, improve economics, and make a meaningful impact to the quality of a city center. The location of the market, in Guelph, Ontario is intended to help attract farmers to the surrounding area. The new market hall will improve pedestrian access and an expanded program will help to densify and activate downtown Guelph. The design of the market is focused around the use of multiple buildings that are connected by an exterior canopy structure to help connect all of the buildings together and create inviting exterior spaces.
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Canopy Locations
Creating Posts
Expanding Post Tops
Adding Top Surface
Creating Mesh Surface
Contouring Mesh Surface
33 | CANOPY
Indoor Market 35,000 SF
Admin 3,000 SF Public Support Space 3,000 SF
Lecture Hall 4,300 SF Restaurant 11,500 SF
Residential 22,100 SF
The Canopy structure was designed with rigorous changes in their sizes and locations. My plan was to have the canopies cover a majority of the site, while not feel overpowering. I wanted the canopies to help connect all the different buildings on the site to form one form. I also wanted the canopy structure to make all of the different spaces within the site inviting.
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1
1
5
4 3 4
Level G
1 - Market 2 - Auditorium 3 - Apartment 4 - Restaurant 5- Administration
35 | CANOPY
Level 1
1- Market 2 - Auditorium 3 - Apartment 4 - Restaurant
3
Level Canopy
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C A Section A
Section A
B
Section B
Section B
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Section C
Section C
37 | CANOPY
Wood
Glass Concrete Floor
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Northern Canopy Area
39 | CANOPY
Southwestern View
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TWENTY CONCENTRIC CIRCLES
Research: Design Topology Lab Summer 2018 Professor Joseph Choma Team: Wilson Marshall, Claire Hicks, Sarah Nail
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This research project further explored the process of folding fiberglass like paper. The initial design was a concentric circle folding patern made from paper. We continued to test to see how closely related paper was to fiberglass. This project started out as a eight foot x eight foot flat sheet of fiberglass that when finished and folded it took up a four cubic foot space. This structure was composed of 20 concentric circles. Each circle was evenly offset from each other. This fiberglass object was roughly 30 pound and designed, fabricated by hand, and finished by five people within ten weeks.
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Laser Cut Stencil
Dragknife Tape for Circles
Unroll Fiberglass
Do not resin on tape
Let Resin Dry
Apply Bondo to Fiberglass
43 | TWENTY CONCENTRIC CIRCLES
Trace Pattern onto Fiberglass
Tape Pattern onto Fiberglass
Apply Resin to Fiberglass
Cut off Excess Fiberglass
Remove Tape
Sand Surface Smooth
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45 | TWENTY CONCENTRIC CIRCLES
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THE PORTAL OF THE PIAZZA The Columbian Exchange Museum of Genvoa Studio Genoa Fall 2018 Professor Henrique Houayek Partner: Erin Doering 47
Two Separate Levels
Connecting the Two Levels
Splitting the Slope
Splitting the Levels
Adding a Canopy
Carving out Pocket Spaces
This project focused on designing a museum that would create and strengthen the urban and geographical connections of the city. The location of the museum was in Genova, Italy and the design of the museum was derived from an upside down ship and focussed on being able to move effortlessly through the space.
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First Floor Plan
49 | THE PORTAL OF THE PIAZZA
Top Level Plan
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Longitudinal Section
51 | THE PORTAL OF THE PIAZZA
Transverse Section
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5
2
6 7 3
4
Transverse Section
53 | THE PORTAL OF THE PIAZZA
1 - Glulam Beam 2 - Aluminum Structure 3 - Steel Connection 4 - Steel I-Beam
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5 - Wood Panel Facade 6 - Glass 7 - Facade Structure 8 - Moisture Protection Seal 9 - Concrete Foundation
Interior View
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Front/East Side View
55 | THE PORTAL OF THE PIAZZA
North Side View
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PIAZZA DE FERRARI
BOCCADASSE
FLORENCE
COLOSSEUM
SKETCHES Study Abroad Fall 2018
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SAN GIMIGNANO
BOCCADASSE
VENICE
ROME
PHOTOS Study Abroad Fall 2018
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Joseph Edwin Scherer jschere@g.clemson.edu | 309-258-9217
Education:
August 2015 - May 2019
Bachelor of Arts in Architecture
Minor in Business Administration Clemson University, Clemson, SC 3.44 GPA | Anticipated Graduation: May 2019 President’s List | Fall 2018 Dean’s List | Fall 2015, Spring 2017
January 2014 - May 2015
Associates in Science
August 2012 - December 2013
Illinois Wesleyan University
Study Abroad:
August 2018 - December 2018
Work Experience:
Clemson University Fike Fitness Center
Illinois Central College, East Peoria, IL 3.745 GPA | Graduated: May 2015 President’s List | Spring 2014 Dean’s List | Fall 2014, Spring 2015
Charles E. Daniel Center | Genoa, Italy
Countries Visited: Italy, Spain, Germany, France, Switzerland, Austria, Czech Republic, Netherlands
Welcome Center Assistant
May 2018 - August 2018
Lowes
May 2017 - July 2017 May 2016 - July 2016 February 2015 - July 2015
Morton Park District
May 2015 - August 2015 May 2014 - August 2014
Matcor Metal Fabrication
June 2012 - August 2012
Publications:
Customer Service Associate
Anderson, SC | Lumber/ISLG/OSLG East Peoria, IL | OSLG East Peoria, IL | ISLG/OSLG Equipment: Forklift/Order Picker/Narrow Aisle Reach Truck
Maintenance Crew Morton, IL Morton, IL
Assembly/Quality/Inventory/Paint Morton, IL
Project included on Archinect: Chakrasana by Joseph Choma (built Summer 2017) Project inside book: Études for Architects by Joseph Choma (Routledge, 2017)
Affiliations:
January 2019 - May 2019 August 2017 - May 2018 January 2017 - May 2017
Skills:
References:
American Institue of Architecture Students (AIAS) Graphic Chair Treasurer Co-Event Coordinator
Rhinocerous Modeling Software Sketchup Modeling Software Grasshopper Modeling Software AutoCAD Adobe Creative Suite/Cloud V-Ray Render Rhino Render 3D printing skills Microsoft Office Unity VR Software Hand Modeling with craft Strong communication skills
George Schafer, Lecturer, School of Architecture Clemson University, Lee 1-158, Clemson, SC 29634 schafer@g.clemson.edu
jschere@g.clemson.edu