Post on 28-Mar-2016
description
Damian Babicz1302 S. 5th AveDes Plaines, IL 60018(224) 388-8914damianbabicz@ymail.com
University of Illinois at ChicagoUndergraduate 2008 - 2012
The collection of undergraduate projects is dedicated to design and technical drawings from Fall 2009 to Fall 2011of undergradu-ate works. Projects use simple shapes which are manipulated to create complex structures.
Fall 2009Instructor Kyle Reynolds
Fall 2010Instructor Andrew Moddrell
Spring 2011Instructor David Brown
Spring 2010Instructor Laura Fehlberg
Fall 2011Instructor Thomas Kelley
Tornado Tower
Univercity
The Wave of Heat and Cold
Overhanging Market
The Grid is Opaque
The relationship between shapes and their connections offer many opportunities for programs to interact with each other and create variations within the programs themselves.
Content:
Spring 2012 Target Golf
Tech Project Design
Spring 2011Instructor Michael Gelick
Minnesota School
Spring 2012Instructor Bruno Ast
Dynamic Table
Fall 2010Instructor Dan Wheeler
Brick Space
Instructor Andrew Moddrell
Furniture Design & Fabrication
(Revit)
(Rhino)
(Revit)
(Rhino)
(Revit/Grasshopper)
(Revit/Rhino)
(Revit)
(Revit)
(Inventor)
Tornado Tower
Mix use tower uses basic operations to manipulate simple form to create complexity. The square shape is enlarging as it rises into the sky. The angle of towers rotation corresponds with corners of surrounding buildings around the site. The courtyard and side voids allow the light to penetrate larger area of programs as well as create exterior spaces which are used for recreation.
Residential, commercial, recreation center and retail are the main programs incorporated in the tower. Vertical distribution of programs allows more interaction between users. The exterior of the building is made out of reflective glass to reflect sky to blend in with the low surrounding buildings.
Reflective exterior camouflages the mass of the tower
Fall 2009Instructor Kyle ReynoldsTower ProjectProduced in: Revit
1. Subtract 2. Twist 4. Product3. Subrtact
Residencial Comercial
Retail Recreation
Form operation diagram
Subtract Twist Subtract Product
Two structural cores and truss system
Vertical division of program
Residencial Commercial
Retail Recreation
Relationship of programs vertically and horizontally
Level 4
Office space connected with retail by exterior recreation space - Level 4
Level 48
Office space connected with residential by exterior workout space - Level 48
Street corner view
Courtyard between residential and retail
Recreation rooftop with view on residential units
Uniform exterior vs. colorful interior skin
Top view representing the variations within the courtyard
Entrance to the underground parking
Truss system exposed Courtyard connecting residential and commercial spaces
Rotation creates terraces with exposure to surrounding programs
Overhanging Market
An overhanging market uses a catenary curve system to transfer the weight of the market and in order to allow it to cantilever over the train tracks. Cantilever structure creates underground parking garage and a receiving zone. A number of studies and iterations were performed on Gaudi's technique which then was transformed into a canopy system that would house program. The permanent market stalls are located toward the entrance and then it smoothly transforms into temporary stalls. The only entrance to the market is at the intersection level. Ideas such as grid orientation, scale and gradient are the primary forces for this design.
Catenary curves allow market to cantilever the rail tracks
Spring 2010Instructor Laura FehlbergLocal Food Market ProjectProduced in: Rhino
Iterations of Gaudi's technique to develop canopy system
Shear, Mirror, Scale, Displace Control Points
Scale Shear, Mirror, Scale, Move
Iterations of operations explored to create the catenary system
Shear, Mirror, Scale,Displace Control Points
Scale Shear, Mirror, Scale, Move
Mirror
12
1
2
Moving control points of the entire field to create dense and loose areas in top view. Manipulate middle control points in side view to create gaps between taller components, but also keep the purity of the front view.
Market Stall Storage Component Grid of Permanent Markets to Temporary Markets Single Component Scaling Gradient of Scale
Relationship between roof system and program layout
Roof StructureFloor Plan
Market Stall Storage Component Grid of Permanent to Temporary Markets
Single Component
Scaling Gradient of Scale
View from green area on market stalls
View from across tracks
Light structure allows large sun exposure
Relationship between street level and the market
UniverCity
Exterior spaces allow for variety of after class activities
Fall 2010Instructor Andrew ModdrellNavy Pier ProjectProduced in: Revit
The objective is to put The University of Illinois at Chicago back onto Navy Pier. Navy Pier offers the university a peaceful and quiet location which is still connected to the urban environment.
Formally, the new university is stretched horizontally and compressed vertically on the site where every department has its own individual building; those are connected by elevated sidewalks which carry program within as well as throughout.
The form, patterns, and connections between buildings are based on principles of Walter Netschs original design for UIC.
Program and form concept reference original Netchs idea
Stack and Scale Creating interior Courtyards Connect with elevated Sidewalks
Stack Rotate Create Occupiable Voids
Walter Netschs Concepts: Proposed Concepts:
Business Administration Liberal Arts Applied Health Sciences Education Mixing Tower Architecture and Arts Engineering Urban Planning
Site aerial exposes garden rooftops and elevated sidewalks connecting the buildings
Square footage of each department and program distribution
Business Administration Liberal Arts Applied Health Sciences Education
2,900 Students 10,500 Students 1,500 Students 3,500 Students
Class: 90,500 sq ftHousing: 53,500 sq ftLabs: 0 sq ftLibrary: 25,000 sq ftLectures: 32,400 sq ftOffices: 43,000 sq ftOther: 10,600 sq ftSports: 22,000 sq ftParking: 17,400 sq ftGreen: 26,000 sq ftCenter: 40,000 sq ft
Mixing Tower Architecture and Arts Engineering Urban Planing 27,000 Students 2,600 Students 2,400 Students 1,500 Students
Class: 335,000 sq ftHousing: 200,500 sq ftLabs: 70,000 sq ftLibrary: 90,000 sq ftLectures: 115,000 sq ftOffices: 160,000 sq ftOther: 40,000 sq ftSports: 77,500 sq ftParking: 63,600 sq ftGreen: 95,400 sq ftCenter: 163,000 sq ft
Class: 48,000 sq ftHousing: 31,000 sq ftLabs: 6,500 sq ftLibrary: 12,600 sq ftLectures: 16,,400sq ftOffices: 22,500 sq ftOther: 5,600 sq ftSports: 11,000 sq ftParking: 9,000 sq ftGreen: 13,500 sq ftCenter: 23,000 sq ft
Class: 111,000 sq ftHousing: 65,000 sq ftLabs: 0 sq ftLibrary: 30,000 sq ftLectures: 8,000sq ftOffices: 52,000 sq ftOther: 13,000 sq ftSports: 25,600 sq ftParking: 21,000 sq ftGreen: 32,000 sq ftCenter: 54,000 sq ft
Restaurant: 335,000 sq ftRetail: 200,500 sq ftConcerts: 115,000 sq ftCenter: 90,000 sq ftOther: 40,000 sq ft Parking: 63,600 sq ftGreen: 95,400 sq ft
Class: 25,000 sq ftHousing: 100,000 sq ftLabs: 44,030 sq ftLibrary: 22,000 sq ftLectures: 14,000 sq ftOffices: 39,000 sq ftOther: 9,400 sq ftSports: 19,000 sq ftParking: 15,600 sq ftGreen: 23,400 sq ftCenter: 40,000 sq ft
Class: 38,600 sq ftHousing: 45,500 sq ftLabs: 30,000 sq ftLibrary: 20,200 sq ftLectures: 13,000sq ftOffices: 36,000 sq ftOther: 9,000 sq ftSports: 17,500 sq ftParking: 14,400 sq ftGreen: 22,000 sq ftCenter: 37,000 sq ft
Class: 48,000 sq ftHousing: 28,000 sq ftLabs: 0 sq ftLibrary: 12,600 sq ftLectures: 16,300 sq ftOffices: 22,300 sq ftOther: 5,500 sq ftSports: 11,000 sq ftParking: 9,000 sq ftGreen: 13,500 sq ftCenter: 23,000 sq ft
Floor plan of dorm rooms with occupiable courtyard
Change of volumes and locations of elevated walkways
Basement
Ground floor
Roof
Long section
Detailed section of Urban Planing Department
View from lake on Liberal Arts and Business Administration Departments
View of Engineering Department with elevated walkway
View from Mixing Tower on Chicagos skyline
Diamond truss system transfers pattern to sidewalk
1=100 massing model with key features
Library Classroom
Dorms Labs
Floor plate patterning distinguishes change of program
Green spaces incorporated in recreational rooftops
The Wave ofHeat and Cold
exitLAST BEACH
FOR 1,217 MI
LAST BEACH For 1,217 Miles
WASHINGTON
INTERSTATEkANSAS70
CANADA
MEXIC
O
CALIFORNIA BEACHESP A C I F I C O C E A NP A C I F I C O C E A NP A C I F I C O C E A NP A C I F I C O C E A NP A C I F I C O C E A N
JAPANCHINA RUSSIA
ROCKY MOUNTAINS
NEW MEXICO
SALT LAKE CITY
NEVADA
OREGON
arizona
COLORADO
UTAH
HOTEL
1 MILE OF FRENCH RIVERA
OVER 4 MILES OF SKI SLOPES
WELCOME CENTER
SHELL GAS STATION
ICE SKATING RING
UNDERWATER RESTAURANT
The wave project is located in the mild climate of Kansas. It introduces two opposite climates combined to allow the users to delight hot and cold simultaneously. The objective of the course was to make the building an icon and allow it to be recognizable from far away.
The typology of the roof imitates surrounding landscape and the interior is lighted by artificial interior sun to imitate the atmosphere of being out in the open.
Variety of aspects included in design and concept poster
EnclosureMaterialityIcon Atmosphere Dynamism Landscape Lighting
Gas Station
5 Star Hotel
State
5 Star Restaurant
Beach
Ice Skating Skiing
Style
Seafo
od
Disc
oSe
a Pum
pEx
clusiv
e W
aterla
ndH
owdy
yall
in
Kan
sas
Viva
La
Rive
raFl
y Hig
h
Spring 2011Instructor David BrownIcon ProjectProduced in: Rhino
Transition from beach to ski slope through restaurant
Icon form schemes
Concept billboard
Long Section
Half PipeBeach
Water Water
Water EquipmentRental
Ice CreamStand
SandwichBar
GrillSeaFood
RestaurantSmoothie
Stand
Water
Entrance
SKI SLOPES
BEACH
RESTAURANT
STATE INFORMATION CENTER
ICE RING
Circulation
Half Pipe
Landscape mirroring surrounding site
Side Skin Extended
Relationships of programs
Variation of submerge of ground floor level
View from a field across the highway
Side skin extendsMirror landscapeSurrounding site
Ski slopesBeachState information
RestaurantIce ringHalf pipe
Circulation
Entran
ce
35
Ski Slope
HotelLobby
HotelBeachBoardwalk
LoungeClub
Gas Station Main Entrance
Section of restaurant and info center
Section of beach and hotel
Relationship of landscape to program
Curvature on the interior expresses artificial landscape
Wave exterior shapes the interior spaces of the ski slopes and hotel
Beach and hotel view
Beach aerial viewSki slopes viewHighway view
Brick Space
Building is constructed out of 4 by 8 brick module. To achieve heaviness, pushed back walls and narrow, tall windows are used. Building is oriented N-S with a door opening on west side allowing users easy access from the bike path in the park. Window openings are located on north and south sides to achieve direct and indirect light within the building.
Fall 2010Instructor Dan WheelerBike Station Project - Tech StudioProduced in: Revit
Assembly of the envelope
Footing and foundation Poured floor slab and insulation
Interior brick wall Poured concrete roof
Install windows Install double swing door
Exterior insulation Exterior brick and roof gravel
Brick Module 4x 8
Double Hung Window 2 x 6
2 Rigid Insulation
Wall Ties @ 16 O.C.
Air Gap 2-3/8
Concrete Floor Slab 6
Detail of Floor Plan
Roof Membrane
Gravel Stop
Gravel
Roof Insulation 6
Roof Concrete Slab
Wall Insulation 2
Brick Module 4 x 8
Cavity 2-3/8
Recessed joint
Wall Tie 2 Flasher
Steel Lintel
Weep Holes
Door Frame
Double Swing Door 6 x 7
Brick Module 4x 8
Double Hung Window 2 x 6
2 Rigid Insulation
Wall Ties @ 16 O.C.
Air Gap 2-3/8
Concrete Floor Slab 6
Section Details
Floor Concrete Slab
Footing
Foam Insulation
Reinforcing Bars
Window Frame
Double Hang Door 2 x 6
Section Details
Section Perspective Section Detail Axon
Minnesota SchoolSpring 2011Instructor Michael GelickSchool Project - Tech StudioProduced in: Revit
Poured concrete system is used to design the school in Minnesota. Project allows exploring skin, building codes, MEP systems and develop sensibility of how those elements work together to accomplish requirements for the building.
Structure Plan
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
AB
CD
EF
GH
IJ
KL
MN
OP
r
Beam14x24
Column16x18
Column24x24
Beam24x36
Floor beams12x16
Floor beams12x16
Double Tee48x10x80
20-0
40-0
20-0
180-0
Bathroom Plan, Section And Axon
Hallway WashroomStaircase , Elevator,Mechanical Shaft
3
10-16
Raiser = 7Tread = 11
6626
19
Floor Slab 6
7-0
7
-0
23-0
3-0 6-0 6-0 3-0 5-0
3-0 3-0 1-61-62-6 2-6
5-6
9
-0
5-6
4-5
3-0 6-0 3-0 5-03-03-0
5-6
5
-6
2-0
9
-0
9-0
20-0
SprinklersMain Pipe
LightDrains Water Pipes
Duct
Return
Drop CeilingColumn
Partition Wall
Sprinkler
ReturnReturn
Duct Diffuser
Ceiling Section Skin System Axon and Exploded Axon
Curtain WallDouble Hung Window
& Fixed Window
Perimeter SystemMechanical
ShaftBoilers
Chillers Cooling Tower Coils
Filter FanFan
Fan RoomHeating & Cooling Tower
DuctReturn
FanChimney
HVAC System Section
HallwayPartition Wall
HVAC System Plan
UP
Ducts
Return Ducts
ReturnsDucts
Returns
Perimeter SystemThermal Control Box
Mechanical Shaft
Double Hung Window & Fixed Window
Sprinkler System Plan
main line from outside
1 diameter pipe
2 diameter Main Line
1 diameter pipe
2 diameter main line
2 diameter main line
6 on center pipe distance
6 on center
8 on centersprinkler heads
8 on centersprinkler heads
8 on centersprinkler heads
6 on center
1 diameter pipe
10 diameter ofsprinkler water covered
10 diameter ofsprinkler water covered
10 diameter ofsprinkler water covered
Dynamic Table
The design is composed of two rectangular squares where top square is 30 and the bottom is reduced proportionally by 1/3 to 20. Top square is supported by 36 rods which diameter is 5/16. The design of the table relies on the simplicity of rotation. The overlaps of elements create pinches, grid as well as illusion of curvature. The bottom piece is rotated 90 degrees which allows those qualities to be exposed to maxi-mum.
Spring 2012Instructor Bruno AstFurniture Design & FabricationProduced in: Inventor
Dining and Side Table by Warren Platner1960s
In the 1960s, Warren Platner transformed steel wire into a sculptural furniture collection, creating what is now considered a design icon of the modern era.
The Platner collection's unique harmonious forms are produced by welding steel wire rods to circular frames, producing a moire effect and capturing the decorative, gentle, graceful quality that Platner sought to achieve.
All metal components are finished in bright nickel with a clear lacquer protective coating. The Platner collection also includes a side chair, lounge chair and stool.
Dimensions 53 3/4" w 27.5"
Research
Angle Rotation Analysis
Angle Rotation Analysis
1 1/4 1
1/4
131.14
2 & 9
27 5/16
28 7/8
136.39
3 & 8
128.05
CORNER
30 13/16
137.72
134.05
25 11/16
26 1/4
4 & 7
5 & 6
1 1/4 1
1/4
1 1/4 1
1/4
1 1/4 1
1/4
1 1/4 1
1/4
Rods 5/16 Square Tubing 1 x 1 1/2
20
30
45 45
45 45
8 x
8 x
4 x
8 x
8 x
4 x
4 x
Rubber Bumpers & Suction Cups
9/16
3/8
1/8
1/4
8 x
8-32
1
5/16
1/4
8 x
List of Elements
Tap Weld
Tap Weld
Drilled 5/16Holes
Drilled 9/32Holes
Drilled 5/16Holes
Drilled 9/32Holes
3 Spacing
2 Spacing
Assembly Detail
Four Sides Assembly
Four Sides Assembly
Rotation of the Elevation
Rotation of the Elevation
3" 3" 3" 3" 3" 3" 3" 3" 3" 3"
1" 1"
2'-6"
3"
3"
3"
3"
3"
3"
3"
3"
3"
3"
1"
1"
2'-6"
2"2"2"2"2"2"2"2"2"2"
1"1"
1'-8"
2"
2"
2"
2"
2"
2"
2"
2"
2"
2"
1"
1"
1'-8"
Top
Elevation
1'-3"
1"
1"
1/4"
Top View Rendering
Isonometric Rendering
Assembly Steps
Assembly Steps
Assembly Steps
Assembly Steps
Assembly Steps
Assembly Steps
Prototype Scale 1:1
Prototype Scale 1:1
Prototype Scale 1:1
Prototype Scale 1:1
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