Paul Mitchell Architectural Portfolio
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Transcript of Paul Mitchell Architectural Portfolio
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Paul L Mitchell
LANDSCAPE OPPORTUNISM
HOUSE OF CULTURE
RE-DRAWING MIES
CHILDRENS HOSPITAL - DALLAS
CU BOULDER BIO LAB
CU BOULDER CMCI
TWO-CREEKS OUTDOOR CLASSROOM
SUMMIT EDEN
DYNAMIC TRANSPARENCY
BRAINARD LAKE
MILK n HONEY
M.Arch
BUILT WORK
BUILT WORK
BUILT WORK
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Rendering: Paul MitchellAs-Built Photography: Jessie Kuroiwa, Paul Mitchell
Construction Document Lead: David KornmeyerCarpentry Lead: Brandon BainWelding Lead: Jeremy Jones
The project brief required the structure to have a direct sightline from the main office for purposes of security. Also stated was a need for enclosure and privacy for classroom instruction. A design strategy of dynamic transparency was tactically implemented through relative perspective. As a user faces per-pendicular to the structure the form is transparent due to its striated screen. As one moves more than 30 degrees on a horizontal plane the striations overlap creating an opaque and private enclosure. As a design build studio tasks were preformed by graduate students including client presentations, documentation, and on-site construction.
Structural Engineer: Andy Paddock
Two Creeks Outdoor Classroom: Built Work 2014Two Creeks Outdoor Classroom: Built Work 2014 Instructors: Rick Summerfeld, Craig Cherry
Students: Paul Mitchell, Brandon Bain, Kristin Bevis, Kendra Matrician,Mike Blea, Joe Coleman, Amr Fayez, John Gibbons, James Hart, Jeremy Jones, Amy Keil, Maeve Kinsey, David Kornmeyer, Breton Lujan, Shawn Adams, Jack Tipton, Joe Coleman
Supervising Architects: Rick Summerfeld, Craig Cherry
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SE Exterior Render
West Interior Render
NE Interior Render
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NW Exterior
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South Exterior SW Exterior
Overhead Interior Interior Gutter Exterior Gutter/ Vegetable Station
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Joint Student Project: Paul Mitchell/Joe ColemanInstructor: Eric Morris
Summit Group: Comprehensive Studio 2014Summit Group: Comprehensive Studio 2014
Summit Group is a network of entrepreneurs that gather once a year for a summit in Eden Utah. A requirement for this project was to create a unique experience of place while also giving users the opportunity to network ideas of emerging business strategies and philanthropy. The design strategy was to create flexible spaces for varying programmatic conditions through the overlap of two condi-tions: a static box that defines edge, and a voronoi pattern of form that carves out spaces for experience of place and opportunities for networking.The overlap of two conditions creates spaces for networking in dynamic areas such as: in, around, under, and over circulation, as well as static spaces for dedicated programmatic spe-cific needs. Specified approach, view corridors, changes in built form elevation, and contrast in differing material mediate the users experi-ence of place and reinforce the overlap of edge and space making through a pattern of form.
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EDEN, UTAH
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15,000 10,000 1,000
1.5min
3min
6min1.5min
3min
1.5min
3min
1.5min
3min
6min1.5min
3min
1.5min
3min
AERIAL ELEVATION
ACCESS
GATHERING
DISTANCE
TOPOGRAPHY
GATHERING
DISTANCE
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ACCESS VIEW CORRIDOR
[FORM][SITE][NETWORK]
EXPERIENCE
AERIAL ELEVATION 75,000 50,000 25,000
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Plans, axon, and details: Joe Coleman
1
2 3
4
5
68
7
1_ LobbyLo2_ Coat Checkoat C3_ Closet4_ Bathrooms
Lower Plan 3/32=1
5_ Kitchen66_ LLoadiding DDockk6 L di D k7_ Storage8_ Event Hall
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Plans, axon, and details: Joe Coleman
Reinforced Concrete Wall
Reinforced Concrete WallReinforced Concrete Wall
Reinforced Concrete Wall Reinforced Concrete Wall
4 Concrete topping with radiant Heat coil
4 Concrete topping with radiant Heat coil
Roof Panels connect to steelplates embedded in reinforced concrete wall.
Steel C canal with Plastic panels
Thermoplastic polyolefin
Rigid Insulation Rigid Insulation
Rigid Insulation
Rigid Insulation
Concrete Waffle Slab
Hollow Core Slab
Waterproofing Layer
Perforated Drainage Mat
Crushed Stone
Perforated Pipe
Perforated Pipe
Detail 1 Detail 2
Detail 4
Detail 5
Detail 3
4 Concrete topping with radiant Heat coil
Upper Plan 3/32=1
ee Bar1_ Coffeage2_ Storawer Room3_ Showhrooms4_ Bathce5_ Offic
6_ Conference Room7_ Event/Lounge8_ Meeting Room
1 2 3
3
4
5
6
8
7
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Sections: Joe Coleman
Event Section 1/8= 1Office Section 1/8= 1
East Section 1/8= 1
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Sections: Joe Coleman
1
2
3
4
5
Entry Section 1/8= 1Meeting Room Section 1/8= 1
West Section 1/8= 1
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PERSPECTIVE: EAST
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PERSPECTIVE: NORTH-EAST
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LOWER FLOOR MEETING SPACE: CORRIDOR FACING WEST
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UPPER FLOOR OFFICES: CORRIDOR FACING EAST
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Two Creeks Outdoor Classroom: Design Build Unbuilt Proposal 2014Two Creeks Outdoor Classroom: Design Build Unbuilt Proposal 2014
Concept:David Kornmeyer, Paul Mitchell, Kristin Bevis, John Gibbons, Joe Coleman, Jack Tipton
The project brief required the structure to have a direct sightline from the main office for purposes of security. Also stated was a need for enclosure and privacy for classroom instruction. A design strategy of dynamic transparency was tactically implemented through relative perspective. As a user faces per-pendicular to the structure the form is transparent due to voids created through triangulating each vertical plane. Extruding the triangulated lines into truncated three-dimensional forms created a condi-tion in which when one changes thier perspective on either a horizontal or vertical plane the depth of the truncated forms overlap creating an opaque and private enclosure.
Plans, Sections, Elevations: David KornmeyerPhysical Model: Kristin BevisDigital Model: John Gibbons, Joe Coleman, Kristin BevisRendering: Paul Mitchell
Instructor: Rick Summerfeld
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visi
bilit
y +
light
visibility + light
1. Optimize Views // views to be privileged or blocked are optimized in this design when the surface geometry on fourff sides and the ceiling is extruded to a central point on the ground
2. Alter Visibility + Light // Each aperture increases as the interior is cut closer to the outside edge, Increasing light and visibility. Inversely,yy each aperture decreases as the interior is cut further from the outside
3333. Prescrriibbee Exppeeerrriiience // The interior suuurrrface iss dddeeeessigggnnned to ppprreeessscccrrriibbe program, views, vissiiibbbiility,yy and
ffalllsss wwwwiithin thee iinnnterior ssuuurrffaaccee iis reemmmooovvveeed,,, leaving the reatee aaan impppllliieeeddd sssurrface.
visi
bilit
y +
light
further from the outside ibility.
ffaallss wwwiithin thee iiinteriorrreeeemmmmaaaiiinniiinnng eedddggges to cr
visibilivvvv
ty + light
the ceiling is extruded to a central pointplane.
t on the ground decreases as the interior is cutedge, decreasing light and visi
sszz
y
REFLECTED CEILING PLAN
ROOOF PLAN
DGROUND0' - 0"
MICROPILE FOUNDATION,IF REQUIRED
CONCRETE GRADE BEAM W/REQUIRED STEELREINFORCEMENT RE:STRUCTURAL
4" CONCRETE SLAB ON GRADE -OR CRUSHER FINES
1/2" COMPRESIVE MATERIAL
1/2" PLATE STEEL PLATE
5/8" EMBEDED STEEL BOLT @ 24" O.C.
1/2" PLATE STEEL, WELDED -STRUCTURAL STEEL FRAMING SYSTEM
RE: STRUCTURAL
FLOORR PLANOOOR
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SE Exterior
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Aerial Perspective
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Interior
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Instructor: Scott LawrenceInnnsssttrrruuuccctttooorrr:: SSScccoootttttt LLLLaawwwrenceBrainard Lake Research and Activity Center: Studio III 2012Brainard Lake Research and Activity Center: Studio III 2012
The design strategy for this project was to organize static space through programmatic ajacency and temporal sequence while a dynamic site driven skin allowed for the structure to perform as landscape. Wind vectors shape the skin that covers the rectaliner program blocks. Snow blown onto the structure is used for additional activity programming as well as blending built form into the topography of the site through the dynamic curvature of the structures skin.
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INTERIOR GATHERINGINTERIOR GATHERINGKITCHENKITCHEN
ACCOMMODATIONACCOMMODATION
RESEARCHRESEARCH
DISTRIBUTIONDISTRIBUTIONMECHANICALMECHANICAL
ADMINISTRATIONADMINISTRATION
INTERIOR GATHERINGINTERIOR GATHERING KITCHENKITCHENACCOMMODATIONACCOMMODATIONDISTRIBUTIONDISTRIBUTION MECHANICALMECHANICALADMINISTRATIONADMINISTRATION RESEARCHRESEARCH
FLOOR 1FLOOR 1 FLOOR 2FLOOR 2 FLOOR 3FLOOR 3 FLOOR 4FLOOR 4
ROOFROOF
WALLSWALLS
COLUMNSCOLUMNS1/32=11/32=1
DOORS
GLAZING
STAIRS
FLOORS
EXTERIOR GATHERING
INTERIOR GATHERING
KITCHENACCOMMODATION
RESEARCHADMINISTRAION
DISTRIBUTION
FLOOR 41/8=1
SECTION A SECTION B
B A
DN
UP
UP
DN
DN
DN
DN
DN
DN
EXTERIOR GATHERINGEXTERIOR GATHERING8AM8AM 9 1010 1111 1212 1 2 3 4 5 6 7 8PMPM 9 1010 1111 12AM12AM 1 2 3 4 5 6 7
EXTERIOR GATHERINGEXTERIOR GATHERING
DATIONKITCHEN
B A
FLOOR 41/8=1
N AIONSECTI
RESEARCHADMINISTRAION
DISTRIBUTION
PROGRAM FORM/MEMBRANE PHYSICAL MODEL SITE WIND VECTOR PATTERNS NORTH ELEVATION SOUTH ELEVATION
EAST ELEVATIONWEST ELEVATION
DEFORMATION OF PROGRAM DRIVEN FORM FROM SITE WIND VECTOR PATTERNS
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INTERIOR GATHERINGINTERIOR GATHERINGKITCHENKITCHEN
ACCOMMODATIONACCOMMODATION
RESEARCHRESEARCH
DISTRIBUTIONDISTRIBUTIONMECHANICALMECHANICAL
ADMINISTRATIONADMINISTRATION
INTERIOR GATHERINGINTERIOR GATHERING KITCHENKITCHENACCOMMODATIONACCOMMODATIONDISTRIBUTIONDISTRIBUTION MECHANICALMECHANICALADMINISTRATIONADMINISTRATION RESEARCHRESEARCH
FLOOR 1FLOOR 1 FLOOR 2FLOOR 2 FLOOR 3FLOOR 3 FLOOR 4FLOOR 4
ROOFROOF
WALLSWALLS
COLUMNSCOLUMNS1/32=11/32=1
DN
UP
UP
DN
DN
DN
DN
DN
DN
EXTERIOR GATHERINGEXTERIOR GATHERING8AM8AM 9 1010 1111 1212 1 2 3 4 5 6 7 8PMPM 9 1010 1111 12AM12AM 1 2 3 4 5 6 7
EXTERIOR GATHERINGEXTERIOR GATHERING
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DOORS
GLAZING
STAIRS
FLOORS
EXTERIOR GATHERING
INTERIOR GATHERING
KITCHENACCOMMODATION
RESEARCHADMINISTRAION
DISTRIBUTION
FLOOR 41/8=1
SECTION A SECTION B
B A
DATIONKITCHEN
B A
FLOOR 41/8=1
N AIONSECTI
RESEARCHADMINISTRAION
DISTRIBUTION
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PROGRAM FORM/MEMBRANE PHYSICAL MODEL SITE WIND VECTOR PATTERNS NORTH ELEVATION SOUTH ELEVATION
EAST ELEVATIONWEST ELEVATION
DEFORMATION OF PROGRAM DRIVEN FORM FROM SITE WIND VECTOR PATTERNS
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A relationship of novel form and culture was explored through a multiplicity of structures occupied on their interior, exterior, above, and below grade. Scale and material connect spaces allowing for continuity in a larger site context while the differing opportunities for occupying the structures manipulate the forms original geometry allowing for individual interpretation of experience and identity. The spatial design process in which analog translates to digital medium and the opportunity for multiple form iterations and spatial affect from a single rule set was the formal process for initial form generation. It began with a process of delineating two-dimensional space through an analog rule set defined by four individuals tasked with the goal of amass-ing the greatest amount of territory on a 24x36 sheet. Each individual then extracted the analog two-dimensional geometry with a specific design intent translating it into a three-dimensional digital form.
Instructor: Clark ThenhausHouse of Culture: Studio IV 2013House of Culture: Studio IV 2013
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STRATEGEY DIAGRAMS Layering of 2D analog geometry Intersection of 2D form 3D form generated--layering of 3D form Intersection of 3D geometry generates opportunity
NE NW
SWSE
Form in Context
Original Drawing: Paul Mitchell/Kendra Matrician/Elijah Jordan/Kim Allen
West Exterior: Above Gallery/Theater
3D form generated--layering of 3D form Intersection of 3D Strategy in final iteration
Interior: Gallery/Theater
SW Section Perspective
West Section Perspective
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West Exterior: Above Gallery/Theater
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Interior: Gallery/Theater
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SW Section Perspective
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West Section Perspective
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Instructor: Clark ThenhausEcological Balance through the Network of Form: Advanced Studio 2013Ecological Balance through the Network of Form: Advanced Studio 2013
A network of built form that exists in and along the Mississippi constructed to control the flow and direc-tion of water has also altered the self-healing and balanced aquatic ecological network. The non-point pollution of nutrients (nitrogen and phosphorus) deposited into the river from farming are exacerbated when the built form that contain the Mississippi (locks and levees) concentrate nutriants creating an over abundance of algae in the aquatic environment that in turn creates a hypoxic condition depriving other organisms of oxygen. In order to restore the ecological balance of the river an articulation of autonomous and responsive built forms generated from network data act as a filter for the river through the mining of nitrogen and phosphorus.
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In and along the Mississippi River exists a dynamic infrastructure that is bound by the conventions of property parcels, transportation networks, and built form. The alteration of the Mississippis ecological network through the intervention of built form has had dire consequences on the river and adjacent terrestrial territory. Man made interventions to the ecological network are due to farming in the upper Mississippi region and navigation for trade on both the upper and lower river regions. The Mississippi river defines territory through artificial means: such as acting as a line of demarcation between state boundaries, as well as through natural means: expansion of landmass due to displacement of soil from its flood plain downriver. The intervention of built form to control the river flow and corresponding territory such as levees, dams, and locks that aid in navigation of the river, has created a series of micro ecological systems through out the network. This change in the ecological network has created both an over abundance of nutrients and sediment in the upper region as well as a loss of wetlands and accelerated currents in the lower region. A critical byproduct of the man made micro ecological systems is non-point pollution of nitrogen and phosphorus. Run off from row farming, specifically corn crops, located in the upper region of the Mississippi has caused an imbalance of nutrients that concentrate as they flow downriver depriving the ecological network of its natural life cycle. In the upper region of the Mississippi a series of locks has created pools of river water that are encompassed by algae along the rivers edge. The change in river current due to man made intervention has allowed an abundance of nitrogen and phosphorus to concen-trate and produce inhospitable algae rich environments that not only change the unseen ecological condi-tion in the river but also produce an affect on the landscape of one that glows green algae on its banks. These locks also cause an abundance of soil to build up along dams and during sporadic flooding of the river deposit large amounts of soil into the adjacent flood plains depriving the lower Mississippi of soil that nourishes its wetlands creating a fissure in the natural cycle of soil disposition. The terminal point for the river in the lower region of the Mississippi is the Gulf of Mexico. The concentration of nitrogen and phosphorus in the Gulf is much like the upper region of pools causing an abundance of glowing algae but with more dire consequences due to the large scale of non-point pollu-tion run off. The indirect effect of non-point pollution in the upper region of the river is a hypoxic con-dition (lack of oxygen) at the terminal point of the river in the Gulf. The hypoxia is due to the over abun-dance of algae creating an environment in which no marine life can survive. The combination of poor soil deposition into the wetlands and the concentration of nitrogen and phosphorus leads to a failing ecological system on both fronts; lack of a living marine environment and an ecologically sound terrestrial environment. The consequence of non-point pollution is a complex distributed network case study of built form, natural systems, and their relationship to production and distribution of goods.
The network of built form that exists in and along the Mississippi constructed to control the flow and direction of water has also altered the self-healing and balanced aquatic ecological network. The non-point pollution of nutrients deposited into the river are exacerbated by built form that contain the Mississippi, locks and levees, thus concentrating algae in the aquatic environment creating a hypoxic condition. In order to restore the ecological balance of the river an articulation of autonomous and responsive built forms generated from network data must act as a filter for the river through the mining of nitrogen and phosphorus. If one problematizes the non-point pollution in the aquatic network as an opportunistic condition for resource extraction then it is in the most imbalanced areas of the network that form is most productive through the use of program; mining of nitrogen and phosphorus to accelerate algae growth farms for fuel on floating jack up barge platforms. This production method of accelerated algae growth for use as fuel requires the extraction of nitrogen and phosphors from the river and is an opportunistic, generative, and responsive network design solution to the problem of an unbalanced ecological network. The generative form based on this production and corresponding program create a middle out condition in which form iteration is generative of both object program and its response to the network condition. The entire aquatic network of the Mississippi river can be navigated only by sea going vessels that meet draft requirements. Due do to the constant flux of current and river depth a river barge is the ideal vessel for navigation having a minimal nine-foot draft. Also important in the aquatic navigation of the river is a jack up barge, a modification to the vessel that allows it to remain static in the river current and change in elevation due to four piers attached to its hull that use a rack and pinion system to raise and lower the hull. The decoding of the jack up barge responds to the network condition. The generative form that is responsive to the network condition creates an ecological life cycle of production in both energy created in algae fuels and the balancing of the natural environmental conditions through the extraction of excessive aquatic nutrients.
Ecological Balance through the Network of Form
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St Louis, MOSt Louis, MO
New Orleans, LANew Orleans, LA
Davenport, IADavenport, IA
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St Louis, MOSt Louis, MO
Davenport, IADavenport, IA
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New Orleans, LANew Orleans, LA
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This project was an exploratory exercise in surface conditions. A design strategy of relative perspective was implemented in the form of way finding nodes. As one moves on both a horizontal and vertical plane perpendicular to the surface extruded nodes reorient the user at key elevations through a gradient in which the center point in each cluster aligns with a users sightline.
Milk n Honey: Digital Craft and Fabrication Fall 2012Milk n Honey: Digital Craft and Fabrication Fall 2012Instructor Clark Thenhaus
Concept: Paul Mitchell, Adam Stienbach, Joe Stevenson, Jack TiptonProject Board Graphics and Photos: Adam StienbachFabrication: Paul Mitchell, Jack Tipton, Adam Stienbach, Joe Stevenson
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3/8 dia. eyelet screw anchored to connection
1/4 dia. threaded rod through eyelet screw
3M hooks adhered to conc. above @ 12 o.c.
3 point connector (see detail)
Extruded hexagon panel
Concrete ceiling above
Ceiling Connection Detail
Metal Fastener1/8 dia. thread x 3/8 length
Tightening bolt/Fastener
1/8 diameter pilot holes
Top Connector (walnut veneer)
Bottom Connector (walnut veneer)
Metal Fastener1/8 dia. thread x 3/8 length
Tightening bolt/Fastenerg g
1/8 diameter pilot holes/8 d a e e p o o es
Top Connector (walnut veneer)p (
Bottom Connector (walnut veneer)( )
Connection Detail
ZONE 1 ZONE 2 ZONE 3 ZONE 4
13x13 Clear P.E.T.G.
1/2 dia. dowel @ 45 deg. in variable lengths
10 Hexagon Base
Dowel receivers for multiple orientations
Extruded P.E.T.G hexagon
Exterior_Back LitSurface and separation begin to deterio-rate as light penetrates through it. Varia-tions of depth within the material and surface coverings are exposed, bringing a tertiary level to the composition. Nodes of light form at the tip of extrusion points, amputating themselves from the terrain of origin.
Interior_Back LitMatte quality of the surface is exposed and celebrated, visually transforming the hard plastic material into a cushioned fabric quilt, allowing momentary views to escape through miniature apertures. Connection grid becomes emphasized, while separation between front and back is retained.
Interior_Front LitMatte surface becomes substituted by abnormalities in the covering as light once again passes through the field. Points of extrusions become dark voids within a gradient of diminishing emphasis as form of material become lost to roam-ing areas of light and dark.
Gradient LayoutFive zones are oriented per each sight trajectory. Overlapping gradients pres-ent moments of confrontation and division throughout the surface, resulting in varying densities of extrusions and multiple degrees of directionality.
Generation of FormRadial gradients originating from different viewpoints as the body moves through space are rendered onto a projected draped surface. Every moment of collision between sight trajectory and surface becomes the nucleus of each gradient, establishing a hierarchy of values which are translated into a series of panels.
Morphology of SurfaceExamples of different manipulations to the panel orientations formed from additional viewpoints throughout the space. Panels can be organized in order to produce infinite possible outcomes.
Zone IdentificationEach gradient is assigned to a resultant value, where each panel is manipulated in dowel location and length to produce a formed gradient that is applied to the surface.
Fabrication ProcessCut PETG panel is heated in vacuum form until malleable. Dowel and die are then raised and extruded through the material. Neg-ative die is then placed over material to ensure hexagon shape remains as material cools to its final shape. Upon cooling, extrud-ed form is then spray painted white on extruded side and cut to its final dimensions
3/4 thk. MDF
Existing handrail
High strength Velcro adhered to MDF
P.E.T.G. panel
3/4 thk. MDF
Existing handrails g a d a
High strength Velcro adhered to MDFg g
P.E.T.G. panelp
Connection Detail @ Handrail
MILK HON[e]YPROJECT TEAM: DIGITAL HONEY
TEAM MEMBERS: ADAM STEINBACH, JOE STEVENSON, PAUL MITCHELL, JACK TIPTON
arying densities of extrusions andple ddeegrees of directionality.y
order to produce infinite possibleoutcomes.
Exterior_Front LitSurface remains opaque and focus becomes oriented towards form of extru-sions and dialog between refractions of light and shadows within the surface. Gloss of material becomes emphasized as composition promotes separation between front and back
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(Re)Drawing Mies: Independent Study 2014(Re)Drawing Mies: Independent Study 2014Instructor: Kevin Hirth
The intent of this project was to conceptualize a novel pavilion type through an abstraction of the Neue National Gallerys existing Miesian grid. A design strategy using intersection, scale, and triangulation augmented the existing base geometry. Using a tactic of folding at specific programmatic conditions trans-formed the abstracted two-dimensional grid into a three-dimensional form.
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FOLDING OF ABSTRACT ORIGIN GRID INTO PLINTH TYPE
EXTEND LINES TO PLINTH TRIANGULATE INTERSECTION POINTS EXTRACT ORIGIN POINT LINE GEOMETRY TRIANGULATE ORIGIN GEOMETRY
COMPOSITE--INTERSECTION POINTS/ORIGIN GEOMETRY
GRID ABSTRACTIONNEW NATIONAL GALLERY PLAN
MIES VAN DER ROHE
SCALE 1= 45
PAVILLION WITH PLINTH TYPE COMPOSITE FOLDED GRID LINES
GRID ABSTRACTION GRID ABSTRACTION
STRATEGY--ABSTRACT MIESIAN GRID THROUGH INTERSECTION, TRIANGULATION AND SCALE
TACTIC--FOLD ABSTRACT GRID AT EXISITING PROGRAMMATIC CONDITIONS
INTENT--CONCEPTUALIZE PAVILLION TYPE THROUGH ABSTRACTION OF EXISTING MIESIAN GRID
TYPE--PAVILLION WITH PLINTH
GRID ABSTRACTION
DECREASE IN NUMBER OF CURVE SEGMENTS FORCES CURVE AWAY FROM INTERSECTION RE-DRAWING OVERLAYED ON ORIGINAL DRAWING PAVILLION WITH PLINTHFOLDING OF ABSTRACT COMPOSITE GRID INTO PAVILLION TYPE
(RE)DRAWING MIES
EXTRACT POINTS MIRROR
ROTATE SCALE TO AS BUILT FOOTPRINT
GRID SEGMENT DIVIDED CELL POINT LINES I-BEAM INTERSECTION
ROTATE EXTRACT POINTS
MIRROR LINES AT INTERSECTIONS ROTATE
EXTRACT GRID FROM POINTS COPY LINES TO GRID
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STRATEGY--ABSTRACT MIESIAN GRID THROUGH INTERSECTION, TRIANGULATION AND SCALE
TACTIC--FOLD ABSTRACT GRID AT EXISITING PROGRAMMATIC CONDITIONS
INTENT--CONCEPTUALIZE PAVILLION TYPE THROUGH ABSTRACTION OF EXISTING MIESIAN GRID
TYPE--PAVILLION WITH PLINTH
(RE)DRAWING MIES
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NEW NATIONAL GALLERY PLAN
MIES VAN DER ROHE
SCALE 1= 45
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GRID ABSTRACTION
GRID SEGMENT DIVIDED CELL POINT LINES I-BEAM INTERSECTION
MIRROR LINES AT INTERSECTIONS ROTATE
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GRID ABSTRACTION
EXTRACT POINTS MIRROR
ROTATE EXTRACT POINTS
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EXTEND LINES TO PLINTH TRIANGULATE INTERSECTION POINTS EXTRACT ORIGIN POINT LINE GEOMETRY TRIANGULATE ORIGIN GEOMETRY
COMPOSITE--INTERSECTION POINTS/ORIGIN GEOMETRY
GRID ABSTRACTION
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FOLDING OF ABSTRACT COMPOSITE GRID INTO PAVILLION TYPE
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FOLDING OF ABSTRACT ORIGIN GRID INTO PLINTH TYPE
FOLDING OF ABSTRACT ORIGIN GRID INTO PLINTH TYPE
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PAVILLION WITH PLINTH TYPE COMPOSITE FOLDED GRID LINES
PAVILLION WITH PLINTH TYPE COMPOSITE FOLDED GRID LINES
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DECREASE IN NUMBER OF CURVE SEGMENTS FORCES CURVE AWAY FROM INTERSECTION
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RE-DRAWING OVERLAYED ON ORIGINAL DRAWING
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PAVILLION WITH PLINTH
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Professional Work Professional Work
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DN
REF.
A-601
SCREENINGROOM
214 A214 A
COMPUTERLAB215215
FACULTYOPEN
OFFICE201 N201 N
AVEQUIPMENTCHECKOUT
201 O201 O
LOUNGECR 232 ACR 232 A
CONFERENCEROOM
201 R201 R
HUDDLEROOM
201 D201 D
OFFICE201 F201 F
HUDDLEROOM
201 H201 H
HUDDLEROOM
201 L201 L
OFFICE201 M201 M
GRADLAB
ADVISING207207
GRADLAB 2
201 E201 E
FACULTYOPEN
OFFICE201 I201 I
FACULTYOPEN
OFFICE201 G201 G
ROOM234A234A
ROOM234B234B
ROOM234C234CCORRIDOR
CR 234CR 234
MECHROOM
216216
STAIRST 221ST 221
WOMEN228228
MEN224224
MECHROOM
222222ROOM
213213
CORRIDORCR 232CR 232
ROOM211211
ROOMST 202ST 202
ROOM205205
STORAGE201 B201 B
ROOM212212
STAIRST 271ST 271
JAN230230
SHAFT147147
ROOM148148
HUDDLEROOM
201T201T
PIN UPCR 232 BCR 232 B
CLASSROOM214 B214 B
1A
2A
A-601
3A
4A
A-601
3B
1
B
2B
5
B
A-601
1
C
2C
3
C
A2
A
2
A
2
A
2
A
2
L
A-601
3D
4
D
A-601
5C
4
C
No work in this areaNo work in this areaNo work in this area
A-602
1D
3
D
A-602
2C
1
C
4D
4
C
A-602
1
A
4B
2
B
1B
CLOSET201 A201 A
OPENSPACE
201 C201 C
OPENSPACE
201201
WAITING201 Q201 Q
CORRIDORCR 201 JCR 201 J
FACULTYOPEN
OFFICE201 K201 K
WORKAREA
201 P201 P
L
L
LL
L
L
L
A2
A2
A
2
A
2
A2
A
2
A2
A2
A2
A
2
A2
A2
A2
A2
A
2
A2
A
2
A
2
A2
A2
L
STAIR201S201S
L
A
C
D
A
D
B BA
2
0
1
D
2
0
1
F
2
0
1
H
2
0
1
L
2
0
1
M
2
0
1
A
2
0
1
R
201O
13'-0" 8'-0"8'-0" 13'-0"
11'-3" 39'-0" 11'-3"
9'-8" 14'-4" 5'-0" 19'-6"
V
I
F
1
5
'
-
1
"
5
'
-
1
1
"
1
1
'
-
2
"
VIF 6'-0" 20'-6"
D
D
No work in this area
E
10.26
A-601
5
A
A-601
1D
201R2
recycle bins13'-3"
1
9
'
-
9
"
9'-9"
A2
No work in this area
1CA-201 02.49
10.33
10.3310.33
10.33
10.33
10.33
10.33
10.33
10.33
10.3310.33
10.33
10.34
10.35
02.50
Vending machinesby others
By owner22.14
Stop and start furred out wall aboveand below existing wire mold, see4B/A-602
201R3
10.26
C
STO.201U201U
201T
2
0
1
U
10.31
10.31
10.31
10.31
A
2
02.49
1
0
'
-
1
0
"
A1
A2A1
A
2
A
1
A2
A
2
A1
A
1
L
A-7011A
A-7012B
4CA-201
5CA-201
3CA-201
10.37
10.37 10.37
Typ. atwire mold
Frame around existing electricalpanels and junction box,coordinate with electrical forsize and location
5'-11"
10.33
Align
4
'
-
0
"
05.13 05.13
05.13
05.13
05.13
05.13
05.13
05.13
1
6
'
-
4
"
TYP
02.49
11'-3"
9'-11" 19'-4"
1
0
'
-
6
"
5
'
-
1
1
"
1
3
'
-
0
"
1
'
-
1
0
"
1
1
'
-
2
"
Min.
4'-8"
L
L
KK
K
K K
K
----
3B/3BBA-701
Floor doorstop
Coordinate relocation of AV boxwith AV Sub.
K K
Furr out wall aroundexisting piping to remain Furr out wall around
existing piping to remain
10.33
EQEQ
Align
13'-0
"12
'-6"
Align, typ.
EQ EQ
201C
201Q
Generic - 12"
3
Generic - 12"
3
Generic - 12"Generic - 12"
3
Generic - 12"
A
2
Generic - 12"
1
1 2 3 4 5
2 3 4 51
A
B
C
D
A
B
C
D
Sheet Number
Sheet Name
Project Status
\\den-srv1\Newforma\007956\000000000249628\6.0_CAD_BIM\6.2_Work_In_Progress\RVT\_Central_Files\ENVD-CMCI-2014_RECORDSET.rvt
1
0
/
2
8
/
2
0
1
5
3
:
1
6
:
1
6
P
M
A-101
PLAN - SECONDFLOOR NEWCONSTRUCTION
University of ColoradoBoulder
Project Location: 106018TH ST, BOULDER CO80304
ENVD - 2ND FLR -REMODEL FORCMCI
HDR Project Number:249628
1/8" = 1'-0"1CPLAN - SECOND FLOOR
Keynote Legend
Key Value Keynote Text
02.49 Existing radiators, repaint all PT1 in scope of work, typ.02.50 Existing shelving to remain.05.13 Proved 24 GA sheet metal reinforcement at face of studs for all
locations of speakers, monitors, tack boards, and wall cabinetryto mount to.
10.26 Provide 1.25" diameter chrome plated or stainless steel coatrod, and shelf
10.28 6' upholstered bench10.31 Mount OFCI Monitor, with OFCI Bracket. Coordinate monitor
height with AV vendor.10.33 Provide 6" x 6" room signage with braille on latch side of all
doors to meet university standards. See sheet A-701, detail 3Cfor mounting location
10.34 Existing security card reader10.35 Existing security card reader to be moved from room 214A to
215, by others10.37 AWT122.14 Sink and garbage disposal, re: mechanical
1. Drawings & specifications are complimentary components of the contractdocuments, review all drawings and specifications for the complete scopeof work. Notify architect immediately for clarification if inconsistencies,contradictions or omissions are discovered.
2. Do not scale drawings, if dimensional information is required & not found,notify architect immediately for clarification.
3. All dimensions are to column centerlines or face of finished walls orsurfaces unless noted otherwise.
4. Refer to Demolition drawings, if any, for work required in advance ofconstruction and coordinate accordingly.
5. All door frames are to be installed 4 away of adjacent perpendicular wallsunless noted otherwise.
6. Refer to Life Safety drawings for additional fire / smoke ratingrequirements.
7. Refer to Equipment drawings for additional equipment specific information.8. Refer to Interior Finish drawings for additional interior finish specific
information.9. Refer to Structural drawings for additional structural specific information.10. Refer to MEP drawings for additional MEP specific information.11. All non-load bearing interior walls are type A unless noted otherwise.12. Re-paint all columns and capitals PT1, Typ.13. Patch and paint all mechanical units, ductwork, conduit and piping PT1,
typ.14. Plan & schedule all work in coordination with CU AV & OIT staff & their
subcontractors.
FLOOR PLAN GENERAL NOTES:
CP208028/W603249
MARK DATE DESCRIPTION03.10.2015 REVIEW SET03.31.2015 100% CD REVIEW04.20.2015 BID/CONSTRUCTION ISSUE
1 04.28.2015 ADDENDUM NO. 12 05.20.2015 ASI-013 06.04.15 ASI-044 06.26.2015 ASI-07
2
2
2
2
2
2
2
2
2
2
2
4
1
1
1
1
1
-
DN
REF.
A-601
SCREENINGROOM
214 A214 A
COMPUTERLAB215215
FACULTYOPEN
OFFICE201 N201 N
AVEQUIPMENTCHECKOUT
201 O201 O
LOUNGECR 232 ACR 232 A
CONFERENCEROOM
201 R201 R
HUDDLEROOM
201 D201 D
OFFICE201 F201 F
HUDDLEROOM
201 H201 H
HUDDLEROOM
201 L201 L
OFFICE201 M201 M
GRADLAB
ADVISING207207
GRADLAB 2
201 E201 E
FACULTYOPEN
OFFICE201 I201 I
FACULTYOPEN
OFFICE201 G201 G
ROOM234A234A
ROOM234B234B
ROOM234C234CCORRIDOR
CR 234CR 234
MECHROOM
216216
STAIRST 221ST 221
WOMEN228228
MEN224224
MECHROOM
222222ROOM
213213
CORRIDORCR 232CR 232
ROOM211211
ROOMST 202ST 202
ROOM205205
STORAGE201 B201 B
ROOM212212
STAIRST 271ST 271
JAN230230
SHAFT147147
ROOM148148
HUDDLEROOM
201T201T
PIN UPCR 232 BCR 232 B
CLASSROOM214 B214 B
1A
2A
A-601
3A
4A
A-601
3B
1
B
2B
5
B
A-601
1
C
2C
3
C
A2
A
2
A
2
A
2
A
2
L
A-601
3D
4
D
A-601
5C
4
C
No work in this areaNo work in this areaNo work in this area
A-602
1D
3
D
A-602
2C
1
C
4D
4
C
A-602
1
A
4B
2
B
1B
CLOSET201 A201 A
OPENSPACE
201 C201 C
OPENSPACE
201201
WAITING201 Q201 Q
CORRIDORCR 201 JCR 201 J
FACULTYOPEN
OFFICE201 K201 K
WORKAREA
201 P201 P
L
L
LL
L
L
L
A2
A2
A
2
A
2
A2
A
2
A2
A2
A2
A
2
A2
A2
A2
A2
A
2
A2
A
2
A
2
A2
A2
L
STAIR201S201S
L
A
C
D
A
D
B BA
2
0
1
D
2
0
1
F
2
0
1
H
2
0
1
L
2
0
1
M
2
0
1
A
2
0
1
R
201O
13'-0" 8'-0"8'-0" 13'-0"
11'-3" 39'-0" 11'-3"
9'-8" 14'-4" 5'-0" 19'-6"
V
I
F
1
5
'
-
1
"
5
'
-
1
1
"
1
1
'
-
2
"
VIF 6'-0" 20'-6"
D
D
No work in this area
E
10.26
A-601
5
A
A-601
1D
201R2
recycle bins13'-3"
1
9
'
-
9
"
9'-9"
A2
No work in this area
1CA-201 02.49
10.33
10.3310.33
10.33
10.33
10.33
10.33
10.33
10.33
10.3310.33
10.33
10.34
10.35
02.50
Vending machinesby others
By owner22.14
Stop and start furred out wall aboveand below existing wire mold, see4B/A-602
201R3
10.26
C
STO.201U201U
201T
2
0
1
U
10.31
10.31
10.31
10.31
A
2
02.49
1
0
'
-
1
0
"
A1
A2A1
A
2
A
1
A2
A
2
A1
A
1
L
A-7011A
A-7012B
4CA-201
5CA-201
3CA-201
10.37
10.37 10.37
Typ. atwire mold
Frame around existing electricalpanels and junction box,coordinate with electrical forsize and location
5'-11"
10.33
Align
4
'
-
0
"
05.13 05.13
05.13
05.13
05.13
05.13
05.13
05.13
1
6
'
-
4
"
TYP
02.49
11'-3"
9'-11" 19'-4"
1
0
'
-
6
"
5
'
-
1
1
"
1
3
'
-
0
"
1
'
-
1
0
"
1
1
'
-
2
"
Min.
4'-8"
L
L
KK
K
K K
K
----
3B/3BBA-701
Floor doorstop
Coordinate relocation of AV boxwith AV Sub.
K K
Furr out wall aroundexisting piping to remain Furr out wall around
existing piping to remain
10.33
EQEQ
Align
13'-0
"12
'-6"
Align, typ.
EQ EQ
201C
201Q
Generic - 12"Generic - 12"Generic - 12"
A
2
Generic - 12"
1 2 3 4 5
2 3 4 51
A
B
C
D
A
B
C
D
Sheet Number
Sheet Name
Project Status
\\den-srv1\NEWFORMA\007956\000000000249628\6.0_CAD_BIM\6.2_Work_In_Progress\RVT\_Central_Files\ENVD-CMCI-2014_RECORDSET_scrubbed.rvt
1
1
/
5
/
2
0
1
5
1
:
3
2
:
5
6
P
M
A-101
PLAN - SECONDFLOOR NEWCONSTRUCTION
University of ColoradoBoulder
Project Location: 106018TH ST, BOULDER CO80304
ENVD - 2ND FLR -REMODEL FORCMCI
HDR Project Number:249628
1/8" = 1'-0"1CPLAN - SECOND FLOOR
Keynote Legend
Key Value Keynote Text
02.49 Existing radiators, repaint all PT1 in scope of work, typ.02.50 Existing shelving to remain.05.13 Proved 24 GA sheet metal reinforcement at face of studs for all
locations of speakers, monitors, tack boards, and wall cabinetryto mount to.
10.26 Provide 1.25" diameter chrome plated or stainless steel coatrod, and shelf
10.28 6' upholstered bench10.31 Mount OFCI Monitor, with OFCI Bracket. Coordinate monitor
height with AV vendor.10.33 Provide 6" x 6" room signage with braille on latch side of all
doors to meet university standards. See sheet A-701, detail 3Cfor mounting location
10.34 Existing security card reader10.35 Existing security card reader to be moved from room 214A to
215, by others10.37 AWT122.14 Sink and garbage disposal, re: mechanical
1. Drawings & specifications are complimentary components of the contractdocuments, review all drawings and specifications for the complete scopeof work. Notify architect immediately for clarification if inconsistencies,contradictions or omissions are discovered.
2. Do not scale drawings, if dimensional information is required & not found,notify architect immediately for clarification.
3. All dimensions are to column centerlines or face of finished walls orsurfaces unless noted otherwise.
4. Refer to Demolition drawings, if any, for work required in advance ofconstruction and coordinate accordingly.
5. All door frames are to be installed 4 away of adjacent perpendicular wallsunless noted otherwise.
6. Refer to Life Safety drawings for additional fire / smoke ratingrequirements.
7. Refer to Equipment drawings for additional equipment specific information.8. Refer to Interior Finish drawings for additional interior finish specific
information.9. Refer to Structural drawings for additional structural specific information.10. Refer to MEP drawings for additional MEP specific information.11. All non-load bearing interior walls are type A unless noted otherwise.12. Re-paint all columns and capitals PT1, Typ.13. Patch and paint all mechanical units, ductwork, conduit and piping PT1,
typ.14. Plan & schedule all work in coordination with CU AV & OIT staff & their
subcontractors.
FLOOR PLAN GENERAL NOTES:
CP208028/W603249
MARK DATE DESCRIPTION10.30.2015 RECORD SET
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