M_Buckley Work Samples

Page 1

Emerging Vineyard Landscape / Architecture / Wine Napa Valley, CA

Dining / Tasting Area

Process Overlook

Reception Area

Winery Walk

Program / Services The winery blurs the boundary between the natural and the synthetic by extending the terrain of the vineyard onto the landscape of the roof. Visitors follow a continuous path that depicts the winemaking process: growth, harvest, collection, fermentation, storage, and of course tasting. Through this procession a narrative of winemaking becomes a spatial and temporal experience.

WINERY WALK 285 286 287 28

302

303 304 305

429

430

431 432

474

433 434

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435

476

436

478

437

479

438

480

439

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482 483 484 485

486

PROCESS OVERLOOK

RESTAURANT / TASTING

RECEPTION AREA

_001 EMERGING VINEYARD

Michael J. Buckley

sum_12

design collaborators -- nick karl + tim gargiulo

buckmi@design.upenn.edu

315.447.9615


Transitional Stage Chestnut St + 30th St Philadelphia, PA

Stage 1 -- Reflection

Stage 2 -- Comradery

2

1

Transitional Housing

3

Circulation Circulation

In order to cultivate recovery for the homeless, the design defines three distinct stages that relate to the recovery process: Reflection, Comradery, and Integration. Each stage employs a unique unit type that guides social scale and augments recovery.

_002 TRANSITIONAL STAGE

Stage 3 -- Integration

Vertical Vertical Horizontal Horizontal

Michael J. Buckley

fall_12

buckmi@design.upenn.edu

315.447.9615


Model Photo

_003 TRANSITIONAL STAGE

Michael J. Buckley

fall_12

buckmi@design.upenn.edu

315.447.9615


Music_Collab Musical Residential Community Delaware Avenue + Chippewa Street Buffalo, NY

Circulation stair cores elevators

Unit Aggregation 1 bedroom = 2 bedroom = 3 bedroom = private terrace = public terrace =

Services Wet walls + chases

Courtyards serve as lightwells

Sound Tubes advertising vestibules for retail space

level 1

Comprehensive Inhabitation The context of the site is an entertainment district. In order to create a strong bond to the community the residence houses people with musical interest. In addition, the public program is a music retail space. Throughout the design inhabitable vertical structure provides private space, while the interstitial space between these cores is used as shared space.

_004 MUSIC_COLLAB

public

w. chippewa st. entry+retail

Private Space bedroom within structural core

musical practice space

Michael J. Buckley

fall_11

buckmi@design.upenn.edu

315.447.9615


Michael J. Buckley buckmi@design.upenn.edu

fall_11

315.447.9615

MUSIC _COLLAB _005

Detailed Wall Section The comprehensive design of the Music Collab extends from the macro to the micro scale. In this manner, the detailed wall section illustrates the construction and materiality of the building. The key assemblies are investigated in larger details. These drawings show the integration of structure, enclosure, services, and environmental sensitivity.

5: Roof Detail

WĂǀĞƌƐ н ^ŚŝŵƐ Steel Tee Bar Flashing 8” Soil 3/4” Glass Railing Aluminum Railing Mullion

ĞƌĂƟŽŶн ZŽŽƚ barrier Waterproof Membrane 4” Rigid Board /ŶƐƵůĂƟŽŶ

4” Site Cast Concrete

Vapor Barrier

Aluminum Fastening Band

Site-cast Concrete Aluminum Framing for Channel Glass Intererior Shade System Double-glazed Channel Glass

4: Facade Detail Tongue & Groove Wood Flooring

Channel Glass Double-glazed Channel Glass

Topping Slab with Radiant Heat Embedded

Aluminum Framing for Channel Glass

/ŵƉĂĐƚ ^ŽƵŶĚ /ŶƐƵůĂƟŽŶ

Aluminum Fastening Band

ϰ͟ ZŝŐŝĚ ŽĂƌĚ /ŶƐƵůĂƟŽŶ 12”Site-cast Concrete

Aluminum Framing for Channel Glass Intererior Shade System Double-glazed Channel Glass

3: Facade Detail Sliding Glass Door

Sliding Glass Door 3/4” Glass Railing Aluminum Door Framing System Tongue & Groove Wood Flooring Topping Slab with Radiant Heat Embedded

5

Aluminum Railing Mullion

/ŵƉĂĐƚ ^ŽƵŶĚ /ŶƐƵůĂƟŽŶ Aluminum Fastening Band

ϰ͟ ZŝŐŝĚ ŽĂƌĚ /ŶƐƵůĂƟŽŶ 12”Site-cast Concrete

Aluminum Framing for Channel Glass Intererior Shade System Double-glazed Channel Glass

2: Terrace Detail

Glass Door 3/4” Glass Railing Aluminum Door Framing System Tongue & Groove Wood Flooring Pavement

Topping Slab with Radiant Heat Embedded

4

Aluminum Railing Mullion Component

/ŵƉĂĐƚ ^ŽƵŶĚ /ŶƐƵůĂƟŽŶ ϰ͟ ZŝŐŝĚ ŽĂƌĚ /ŶƐƵůĂƟŽŶ

Aluminum Fastening Band

12”Site-cast Concrete Drainage Channel Aluminum Framing for Channel Glass

Double-glazed Channel Glass

Compacted Earth

Topping slab with radiant heat system embedded 12” Site-cast Wall

3

ϰ͟ ZŝŐŝĚ ŽĂƌĚ /ŶƐƵůĂƟŽŶ 12” Site-cast Slab Waterproof Membrane

8” Loose Stone

4” Drainage Pipe 6” Sand Fill

Loose Stone Mortar Vapor Barrier Site-cast Footer

Pile Caps

2

ϭ͗ &ŽƵŶĚĂƟŽŶ

1

dƌĂŶƐǀĞƌƐĞ ^ĞĐƟŽŶ

&ƌŽŶƚ ůĞǀĂƟŽŶ


_006 CONSTRUCTION TECH

Michael J. Buckley buckmi@design.upenn.edu

spr_11

315.447.9615

Menefee Cabin -- Masonry Rigorous examination of construction documents provides the information to construct these axonometric drawings. To construct the axonometric, a section and plan are drawn while the remaining information is added by diligent drawing. This provides a thorough understanding of building tectonics.

OUTLINE SPECIFICATIONS 11. ROOF

11

Flashing 2x10x2 inch laminated veneer lumber framing at 16” o.c. 4 2x10 wood beams and 1/2x 9 1/2 steel plate 6 inch batt insulation Plywood sheathing Underlayment Slip sheet Sliding seam Metal roofing

10. LOFT FLOOR W 12x14 steel i-beam 3x10 wood framing at 16” o.c. 2x6 tongue and groove wood flooring

9. GROUND FLOOR Floor type 1 Plywood web i-joist framing at 16” o.c. 6 inch batt insulation 2x6 tongue and groove wood flooring Floor type 2 Cast-in-place concrete reinforced with #3 bars at 24” o.c. on north, west, and east sides of slab (24” long, 6” hook)

8. BASEMENT FLOOR Crushed stone 1 inch rigid insulation Cast-in-place concrete Vapor barrier 4 inch thick site cast slab with mesh reinforcement

7. FIREPLACES 8x4x4 Fire brick Clay flue lining 8x16x8 Inner wythe Bond beam with 2 #5 horizontal reinforment bars Fireproof fill

6. EXTERNAL WALL AT UPPER FLOORS

6

8x16x8 inch CMU inner wythe Vapor barrier 2 inch rigid insulation Air space 4x8x4 inch CMU outer wythe

5. EXTERNAL WALL AT GRADE 8x16x8 inch CMU inner wythe Vapor barrier 2 inch rigid insulation 4x8x4 inch CMU outer wythe Horizontal joint reinforcment 5

4. EXTERNAL WALL BELOW GRADE

10

16x16x8 inch CMU inner wythe with solid fill and #6 vertical reinforcement at corners, openings, and 48 inches o.c. horizontal joint reinforcement at 16 inches o.c. reinforcement at 16 inches o.c. 2 inch rigid insulation Drainage composite

3. FOUNDATION AT INNER WALL 16 inches wide x 12 inches thick continuous site cast with 3 - #5 reinforcement bars running bottom in long direction.

4

9

2. FOUNDATION AT FIREPLACE

7 1

72 inches wide x 12 inches thick site cast concrete pad with #5 at 12 inches o.c. in both directions

1. FOUNDATION FOR PERIMETER WALL 42 inches wide x 12 inches thick continuous site cast concrete strip forms with 3 - #5 reinforcement bars running top and bottom in long direction and #4 reinforcement at 24 inches o.c. along top + bottom

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3

8

8

4

Menefee Cabin

2

1

N

Clark & Menefee Architects


_007 CONSTRUCTION TECH

Michael J. Buckley buckmi@design.upenn.edu

spr_11

315.447.9615

Pierce County Building Steel + Concrete To construct the axonometric, a section and plan are drawn from construction documents while the remaining information is added by diliegent drawing. This provides a thorough understanding of building tectonics. The building features a raised flooring system and hybridized steel + concrete construction.

10

5

9

8

4 11

7

6

3 1

2

County

P i e r ce

Environmental S e r v i c e s B u i l d i n g

M i l ler Hu l l Partnership

OUTLINE SPECIFICATIONS 1. FOUNDATION FOR PERIMETER WALL 18 inches wide x 10 inches thick continuous site cast concrete strip forms w/ 2 - #5 reinforcement bars running bottom in long direction

2. FOUNDATION AT COLUMN 72 inches wide x 14 inches thick site cast concrete pad with 5 - #6 reinforcement bars at in both directions .75

1.5

3

4.5

6

3. FOUNDATION AT COLUMN 8 inches wide cast-in-place concrete with #5 horizontal reinforcement at 16 inches o.c. and and #5 vertical dowel reinforcement at 24 inches o.c. in each direction

4. EXTERNAL WALL AT GRADE Spandrel glass panel Roller shade Aluminum curtain wall system

5. EXTERNAL WALL AT SECOND FLOOR Compensation channel Roller shade Aluminum curtain wall system

6. GROUND FLOOR 2 inch concrete topping slab w/radiant heating system 4 inch cast-in-place concrete slab on grade Vapor barrier 2 inch rigid insulation 4 inch crushed gravel

7. INNER FLOOR AT GRADE Raised floor sytem 4 inch concrete slab on grade Vapor Barrier 2 inch rigid insulation 2 inch sand 4 inch crushed gravel

8. SECOND FLOOR 2 inch concrete topping slab w/ radiant heating system 6 inch concrete slab

9. INNER FLOOR AT SECOND LEVEL Raised floor system 2 1/2 inch concrete slab 8 inch hollow core pre-cast concrete plank

10. ROOF CONSTRUCTION Single ply vented roofing membrane 4 inch rigid insulation 2 1/2 inch concrete topping slab Sloping 8 inch hollow core precast plank


_008 ROCK / PAPER / SCISSORS fall_09

Michael J. Buckley buckmi@design.upenn.edu

315.447.9615

Monolithic Construction The design features both an expanding space, and a narrowing space. The two spaces are a conterpoint to each other; one is an intimate space for individual learning, the other is a gandiose space for collective learning. The duality of the Rock/ Paper / Scissors study is preserved in the Monolith.

longitudinal section a

longitudinal section b

plaster model basswood model

basswood model rock + paper weave construct

charcoal drawings


_009 THE CITY INSCRIBED

Michael J. Buckley buckmi@design.upenn.edu

sum_11

315.447.9615

Barcelona As I ventured throughout the city to interesting places I would stop and sketch at different locations. Through the action of sketching I analyzed space and gained an understanding of the architectural qualities of various designs.

sectional sketch

colonia guell

igualada

barcino

barcelona pavilion


_010 DYNAMIC FACADE

Michael J. Buckley buckmi@design.upenn.edu

fall_10

315.447.9615

Facade Design Tectonic development of a track system provides the apparatus for a mutable facade. Opaque and transparent clips are attached to the track to allow for shading baffles, operable windows for ventilation, and shelving/storage. The facade is explored through precise and exhaustive modeling.

shadows cast interior experience

facade detail simulated night view

acrylic model facade exterior


Education University of Pennsylvania Master of Architecture Currently Enrolled

Anticipated Graduation: May 2014 Cumulative GPA: 3.67

State University of New York at Buffalo May 2012 Cumulative GPA: 3.42

Bachelor of Science in Architecture Cum Laude Study Abroad in Architecture -- Barcelona, Spain Comprehensive understanding of Barcelona’s urban development. Analytical sketches of space.

2011

Employment 2013

Erdy McHenry Architecture -- Model Building Communicated with designers, interpreted working documents, operated laser cutter, assembled model.

Michael J. Buckley

2010 + 2012

TOPS Markets -- Cashier

308 N. 39th St Apt. 2 Philadelphia, PA 19104

2009

Pulaski Summer Recreation -- Counselor

315.447.9615 buckmi@design.upenn.edu

Proficiencies AutoCAD Adobe Creative Suite Autodesk Ecotect + 3DS Max Rhinoceros 5.0 [Grasshopper Plug-in] Trimble (Google) Sketchup 8

Hand Drafting Model Building Sketching HTML 5.0 + CSS 3 Intermediate Spanish

Honors / Awards Arquideas International Student Competition Landscape, Architecture & Wine -- Finalist [Entry #2441] Collaborated to design Napa Valley winery with two colleagues via digital conferences. University at Buffalo -- Cum Laude Dean’s List Provost Scholarship

2012

2012 2011 + 2012 2008


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