Sci-Arc Portfolio

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Sci-Arc PORTFOLIO 2010-1013 WILLIAM HU Southern California Institute of Architecture


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Contents

William Hu

Works 005 | Frameworks: Program (2B Transfer Studio) 015 | Field Operations: Static Architectural Systems 027 | Technology of Descriptions 3 033 | Dynamic Architectural Systems 049 | Manifold Tectonics 053 | City Operations: Architecture in Critical Settings 069 | Design Documentation/Analysis 077 | Introduction to Critical Studies 079 | Robotic Fabrication: Experiments In Control 096 | Construction Documents 104 | Vertical Studio: Peter Testa X-Lab 124 | RoCoCo: Robotic Confections and Confabulations


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DS | Frameworks: Program


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Ds 1015 | Frameworks: Program (2B Transfer Studio) Heather Flood Project | Sound Cloud a Museum for 25 Pianos Site | 6691 Odin St, Los Angeles, CA

This studio works as a research laboratory for exploring programming as a means of generating conceptual and organizational models that transform the needs of the client into spatial paradigms. Primary elements in this shift include the manifestation of cultural institutions, social structures, and capital initiatives. By focusing on methods of organization, the traditional systems of order will transform into renewed models of spatial interaction. In exploring the role of program-

ming in architecture. The studio will propose formal organizations and their corresponding material form for a Museum for 25 Pianos.

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DS | Frameworks: Program


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DS | Frameworks: Program

Conceptual Diagram

Curated Pianos

Site Plan

Personalities of aof Piano Personalities a Piano Acoustic Acoustic

a Gag dy Gaga LadyLa

LibeLi skbe skind ind S

tin r ar M Ma is r Ch

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us nio elo k Th Moionus n elo k Th Mon

Lib er Lib ace er s ac es

no ano Pia Pi ng ing cki ck Ro Ro i i sk sk ov ov ar ar Sw Sw

B e th etho ov en ven

Be e

Mo Moz zar art t Pop

Classic Grand Classic Grand Piano Piano

Material Applique ProfileProfile Color ColorMaterial Applique

The diagram above broke down the characteristics of these personal pianos that I have curated for the museum. Although all different, many of the pianos share characteristics which influence the design.

D AVE.

Classical Jazz Jazz Classical Rock Rock Pop

N HIGHLAN

Elvis’s Ca rtoon 24 kara Elvis’s t GCraaphic rtoon Pet e 24 karat Gr r Ma aphic x Pet er M ax

John Lennon John Lennon

s Plexiglas s Plexiglas

Stev

ie W onde r ie W onde r

s asu Peg st sus ega rge La st P rge

La

Im o He gen Imap o He gen ap

. M li l izo Min.a Fa ilm i l izLo ina Fa im L

is

r Ch

ys s Ke Key cia ia Ali Alic tin


DS | Frameworks: Program

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Aerial View

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OUTDOOR PERFORMANCE

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PRACTICE SPACE

SHEET MUSIC ARCHIVE EXHIBITION SPACE


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Ground Floorplan

DS | Frameworks: Program

Second Floorplan

Third Floorplan

LISTENING BOOTHS OUTDOOR PERFORMANCE

OUTDOOR PERFORMANCE

LOBBY

OUTDOOR PERFORMANCE

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SPACE

INDOOR PERFORMANCE PRACTICE SPACE

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PRACTICE SPACE

SHEET MUSIC ARCHIVE

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EXHIBITION SPACE

EXHIBITION SPACE

EXHIBITION SPACE/ PERFORMANCE SPACE

EXHIBITION SPACE/ PERFORMANCE SPACE

LISTENING BOOTHS

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PER


DS | Frameworks: Program

View from Highland Ave.

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DS | Frameworks: Program

Section A

The main performance hall is housed below grade for acoustic purposes. A hyper faceted interior minimizes reverberation.

The museum has multiple personalities, it includes two performance stages, one which is outdoor and one which is indoor. The space transforms itself at night opening it’s facade to create a continuous performance area.


DS | Frameworks: Program

Section B

The museum is a space for displaying a collection of pianos that have been curated. The space and tectonics of the building allow performances to be held within the display area, activating it as a public performance area.

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Interior in the afternoon

Interior at night

DS | Frameworks: Program


DS | Frameworks: Program

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Performance Hall


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DS | Field Operations: Static Architectural Systems


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Ds 1030 | Field Operations: Static Architectural Systems Patrick Tighe Project | Toxic Garden: A Living Filter Site | University of Nevada Las Vegas

The studio locates the idea of architecture at the intersection of various systems of information: from technical to cultural, from visual to tactile. Main investigation examines the impact of structure and material systems on site and building form. A new Greenhouse building in symbiosis with an additional selected program will provide the physical and programmatic framework to focus on the tectonics of long span structure. Design projects will explore the interrelation between struc-

tural morphology, material behavior, natural lighting, and other performative criteria.

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DS | Field Operations: Static Architectural Systems


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Process models

DS | Field Operations: Static Architectural Systems

Process models

The models above was part of a performative skin structure study that initially helped me find a structural skin for the greenhouse. The first model focused on light aperatures, water collection, air flow and structure. The next model was a study of a self supporting double skin. The undulating surfaces created structure as well as an interstitial space which is explored in the next model.

Process models

The ripples of the previous model are carried into this double dimpled model. The space between the structural skin is where my greehouse is going to be. The structure will house an algae farm which will produce algae oil. The research lab is an integral part of the program which ties it back into the University of Las Vegas Nevada.


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DS | Field Operations: Static Architectural Systems

Double dimpled structure

Quarter-inch skin structure

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OIL

The diagrammatic section is my proposal for my greenhouse. The algae skin structure will be cantilevered over the adjacent parking lot to not only clean but gather CO2 from it, feeding the algae year round. The CO2 is collected through the intake stack which is placed in the center of the parking structure.

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CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2CO2 CO2 CO2CO2 02 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 02 CO2 2 CO2 CO2 CO2 CO2 CO2 CO2CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 02 CO2CO2CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2CO2 CO2 CO2 02CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 2 CO2 CO2CO2 CO2CO2 CO2 CO2CO2 02 CO2 CO2 CO2 CO2 CO2 CO2 02 CO2 CO2 CO2 CO2 CO2 2CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2CO2 CO2 CO2 2 CO2 CO2 CO2 CO2 CO2 CO2 2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2 CO2CO2 CO2 CO2 CO2 CO2

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THOMAS & MARK CENTER

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DS | Field Operations: Static Architectural Systems

COX PAVILION

PARKING GARAGE RECREATION AND WELLNESS CENTER

WILBUR STREET DAYTON COMPLEX

WILBUR STREET


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DS | Field Operations: Static Architectural Systems

The dimples work at a micro and macro level. At the micro level they are the structural element of the skin. At next scale the dimples create more surface area for the algae to grow in a given surface. The research facilities are housed in a family of dimples which are connected through a catwalk system which is suspended above the amphitheater. The largest dimple is the central core which grounds this whole project.


DS | Field Operations: Static Architectural Systems

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DS | Field Operations: Static Architectural Systems

Detailed skin section Light Aperature Solar Dimple LED Lights

Water Retaining Membrane

Algae

Algae Oil

This sectional detail explains how the skin works as an algae farm. Starting from the top, light is controlled through a linked system of operable aperatures. Energy is gathered from the solar dimples which have the largest surface area on the roof. When the sun goes down, the LEDs turn on to keep the photosynthetic process. the water retaining membranes supply the algae with water through water tubes. The algae oil works its way down to the reinfery which is below the stage of

the amphitheater.


DS | Field Operations: Static Architectural Systems

Detailed skin render

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Section model

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VS | Technology of Descriptions 3


Vs 4030 | Technology of Descriptions 3 Juan Azulay and Emily White Project | Harmonized Paradox

As a virtuoso modeler, students will be a renderer of delicious color and texture, and have cultivated their imagination to produce delightful and evocative new planet. The course work with digital tools that enable the development of complex surfaces, procedural and parametric forms. Students will create physical models using 3D printing and work with animation and photography to explore relationships among space, time and perception.

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Spotted prey

VS | Technology of Descriptions 3

Attack

The collision of planets created spatial voids that weren’t prevalent before. The two distinct surface typologies merged and created a dynamic interstitial space where the two landmasses have a dialogue between each other. The two dissimilar landscapes identify themselves with clashing patterns, one which is more organic and one which is angular. The planet I created was more of a flow-

Collision

ing bulbous landscape while the other planet is a rigid striated ribbon landscape.

Merged planets


VS | Technology of Descriptions 3

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Texture mapped surface

VS | Technology of Descriptions 3

Physical model


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DS | Dynamic Architectural Systems


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Ds 1031 | Dynamic Architectural Systems Darin Johnstone Project | Gradient Voids Site | 2018 Magnolia Ave. Los Angeles, CA Acknowledgements | Chosen for NAAB Accreditation and 2010 Spring Show

The premise of this studio is that cities and buildings are largely shaped by a dynamic flow of interrelated cultural, social, political and economic forces. During the course of the term, students test the nature of possible interfaces between architecture and its various settings within the contemporary city. This studio has two formats: in the fall term, it focuses on the development of a single project, while in the spring term, students work with a member of faculty to submit entries

to significant architectural competitions. Both terms are structured in such a way that theoretical assumptions are tested and developed as an integral part of the building design process.

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DS | Dynamic Architectural Systems


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DS | Dynamic Architectural Systems

Siting strategy

Massing studies

SITING STRATEGY

PHASE 1 INTERVENTION INTO SITE

PHASE 2 SHIFT UNITS UP TO MAXIMIZE OPEN SPACE

PHASE 3 INTEGRATE INTO EXISTING UNITS SENSE OF COMMUNITY

BENEFITS _SOUND BUFFER _VIEWS OVER ROOFTOPS _LARGE COURTYARD _NATURAL LIGHT

PROGRAM BENEFITS _WATER RECLAIMATION _URBAN PARK _FARMERS MARKET _ENERGY GENERATOR

Gradient_Voids is a housing project that aims to create a

homogenized building form that emerged out of the

sense of community through its form and architectural

proposed site. The siting strategy we applied to this project

experience, not only for the residents but also for the

was to infiltrate the three existing housing complexes which

surrounding neighborhood. This housing project has a

is owned by the same client, proposing to revitalize them.

direct dialogue with its site conditions and its context by

This integration into the existing infrastructure allowed our

addressing environmental issues, social paradigms and

housing complex to have a smaller footprint which allowed

housing typologies. The building mass was explored

for a larger courtyard envelop by the building form. The

through a site based lens which in turn created a more

courtyard typology was carried into the housing through the


DS | Dynamic Architectural Systems

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“VOIDS� creating these semi private courtyards which are linked to the units. The GRADIENT of public to private spaces was driven by circulation to generate a gradual spatial flux, which guides the users through a series of zones leading to their units.


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Circulation

DS | Dynamic Architectural Systems

Public vs. private spaces

Passive systems diagram

Closed

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Insulator Closed

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Winter Moderate

Summer Moderate

Grey water system

Photovoltaic skin system Open

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Insulator Open

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Summer Extreme

The unit type we implemented is that of a loft style with a

space between the unit and skin system is a private

mezzanine, this unit type took advantage of the spatial

“courtyard� for each unit providing them with their own

relationship between living space and private space. The

greenspace. As the smart skin system folds into the roof of

lofted space is also designed as a passive system creating a

the complex, they are solar panels which take advantage of

ventilation stack with operable windows in the ceiling and

the orientation and area of the roofing. The structure of the

living areas. This stacked effect is enhanced by an ETFE

skin system allows the units to have a curtain wall system

skin system that not only buffers out the sound from the

looking into the communal courtyard. Additional

freeway but also acts as a trombe wall. The interstitial

environmental systems which assist this complex to reach a

Open

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Winter Extreme


DS | Dynamic Architectural Systems

Exploded axonometric

net gain was a grey water system to reduce the amount of wastewater by 50%. The grey water is then used in the hydro radiant flooring which is naturally heated and cooled through solar and geothermal means. This housing typology can be extended into the surrounding neighborhood to unify and enhance the social and environmental aspects the most important space for our being.

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Aerial view

View from balcony

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DS | Dynamic Architectural Systems

North view

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DS | Dynamic Architectural Systems

4th Floor Scale 1’=1/16”


DS | Dynamic Architectural Systems

1st floor Scale 1’=1/16”

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2nd Floor Scale 1’=1/16”

The 12 unit housing project became a 36 unit project because of its integration into the existing housing complex. 8 existing units were absorbed into the new massing to revitalize the old housing arrangements and were replaced with the voided out greenspaces.

3rd Floor Scale 1’=1/16”


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DS | Dynamic Architectural Systems

Typical unit plan

The living quarters has an open plan which allows for unity within the household. The open space is accentuated by a mezzanine which operates as a lightwell and wind stack. The kitchens and wet walls are all organized to minimize plumbing. The bedrooms are the only rooms which moves the resident from public to semi public to private withing the unit. All the units have their own outdoor space

which is located in the rear of the unit. The balcony is protected from sound and sunlight by a ETFE skin which allows for natural ventilation to flow through when needed.


DS | Dynamic Architectural Systems 1bd

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Unfolded section

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Quarter-inch model

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DS | Dynamic Architectural Systems

2010 Spring show

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AS | Tectonics: Cores, Shells and Manifolds


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As 3033 | Tectonics: Cores, Shells and Manifolds Marcelo Spina Project | Serpentine Pavilion meets Phillips Pavilion Acknowledgements | Chosen for NAAB Accredidation and 2010 Spring Show

This class serves as a research platform and testing ground for the exploration of manifold structures, surface tectonics, material assembly as well as digital fabrication and production in relation to both, relevant historic precedents and influential contemporary projects. A contemporary approach to form and structure driven by pursue of continuity, an interest in patterning structure and ornament, gradient openings and aperture necessitates a complex and integral ap-

proach to form and structure.

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AS | Tectonics: Cores, Shells and Manifolds


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AS | Tectonics: Cores, Shells and Manifolds




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Ds 1040 | City Operations: Architecture in Critical Settings Eric Kahn Project | Museum of Residual Scapes Site | Los Angeles International Airport

Museum of Machinic Ornithology or MOMO takes the stated ambition of the studio as a prompt for developing a new type of museum. The dilemma, as such demands an architectural scheme that maintains intact aspects of the conventional museum type while reconceiving, even ambitiously taking on the task of wholesale reinvention of critical aspects of the museum type, museum experience, museum program and museum sensibility. The MOMO challenges the in elastic institutional museum type. The

traditional role of the museum as a collector/demonstrator of culture is seen as unproductive in this context, given the stated desire for a museum that encourages a new lifestyle and a generator of new experiences a critical part of this new museumscape. MOMO generates a synthesis; an integration of two ontologies; the machinic and the biological. These two strategies inform and generate affiliations between local context, an ambitious museum program, green space and infrastructure.

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DS | City Operations: Architecture in Critical Settings


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DS | City Operations: Architecture in Critical Settings

Consider a convergence of two paradigms; that of the mechanical—the inventions of humankind’s ingenuity —and the other the muse—the behavior and performance we glean from nature itself. Current discussions understand these two paradigms as slipping/drifting mutually informing/co-evolving the (O)ther. The act of architecture— manifested here— moves toward a Deleuzian assemblage, as the mutual and asymmetric coevolution of distinct paradigms/ species opening lines of flight out of binary opposites. Affiliations become machinic as deterritorialize each other in an act of inter-species proliferation(s).

Machinic: The ‘machinic’ is a process that enables our capacity as humans to form alliances with non-human forces, be they natural forces, animals, plants etc. These ‘Machinic Alliances’ construct affiliations between categories of human/nature. [implies learning, copying and blurs between both paradigms] Ornithology: The study of birds, including their physiology, classification, ecolog(ies), performative aspects, aesthetic differentiation and behavior.

Durer Albrecht - Wing of a Roller is a painting with a very detailed technique done with painstaking skill. The painting’s accuracy evoked emotion and was acknowledged as one of the greatest artists of the Renaissance in Northern Europe.

Aiming for the same visceral imagery that Durer acheived in his painting with watercolors, I created a wingscape through hyper texturing of the wing. The flow and grain of the model shows the directionality of the feathers. the depth is determined by the color zones of the wing.


DS | City Operations: Architecture in Critical Settings

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Interpretation


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DS | City Operations: Architecture in Critical Settings

Scape(s) Research

These photographs represent a study of ‘scapes’ that arose from the large drawing. The series of light photographs trace the path of the airplane as it lands or takes off. By compiling the long exposure photos together, an invisible environment is realized. The next set of photos show the forces that these gentle giants produce. The pressure of the air from moving over the wing creates a vortex around itself. Although those forces are always there, they are not always seen

until conditions are right. The images on the bottom row is focused on how the surface(scape) reacts to forces. The first image is a field of clouds that an airplane has just flown through. The vortex’s swirl around and moments later it settles as it was. The next two satellite images show how the landscape which is so stagnant, can move like water. The residue left behind emphsizes the movement.


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The model above is a spatial/form making model which focuses on residual spaces. The excavation of space from a given volume creates relationships through volume and nearness.


Architecture is a question of ephemerality and the desire to capture it. There are two discreet mediums which are in question. The air and the land; the air is affected quickly but forgets quickly, the land is resilient but remembers longer. In this project the land remembers like that air. The surfacescape traces and materilizes the forces created by the plane. The residual scapes are those that make up the museum.


mem·o·ry

[mem-uh-ree] noun _the mental capacity or faculty of retaining and reviving facts, events, impressions, or of recalling or recognizing previous experiences. _the act or fact of retaining and recalling impressions, facts; remembrance; recollection _the length of time over which recollection extends: a time within the memory of living persons.

trace

[treys] noun _evidence of the former existence, influence, or action of some agent or event _a barely discernible indication or evidence of some quantity, quality, characteristic, expression

e·phem·er·al

[ih-fem-er-uhl] adjective _lasting a very short time; short-lived; transitory: the ephemeral joys of childhood.

re·sid·u·al

[ri-zij-oo-uhl] adjective _pertaining to or constituting a residue or remainder; remaining; leftover. _formed by the subtraction of one quantity from another: a residual quantity. _(of a set) having complement of first category. _remaining after the soluble elements have been dissolved: residual soil.

ma·te·ri·al·ize [muh-teer-ee-uh-lahyz] verb _to come into perceptible existence; appear; become actual or real; be realized or carried out: Our plans never materialized.

Museum grows towards it’s muse


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DS | City Operations: Architecture in Critical Settings

Evolution of the museum over time

The Museum of Residual Scapes captures the ephemerality of flight and embed the movement into the site. The feather like fog traces the force of the airplane which creates a momentary space. Architecture is created between the relationship of the plane and the museum. The bio structure grows towards the stimuli of the plane, trying to touch the sky. The constant flux of the airplanes flutter through the structure heightening senses.


DS | City Operations: Architecture in Critical Settings

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Detail of a hotel unit

The museum is a hotel for plane spotters. Their particular desire is to see the plane in flight. The museum enhances this experience by housing the viewer in a cocoon which trembles with each pass of the plane.


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DS | City Operations: Architecture in Critical Settings

Composite section and plan drawing

The earth is not forgetten, this section shows how the structure touches the earth. The deep cavity allows the museum to anchor itself and grow to extreme heights.


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Museum creating an inverted horizon


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Physical model with stand

Detail

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AS | Design Documentation/Analysis


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As 3040 | Design Documentation/Analysis Pavel Getov and Scott Uriu

This course investigates issues related to the implementation of design: technology, the use of materials, systems integration, and the archetypal analytical strategies of the force, order and character. The course includes a review of basic and advanced construction methods, analysis of building codes, the design of structural mechanical systems, the development of building materials and the integration of building components and systems. The intent of this course is

to develop a cohesive understanding of how architects communicate complex building systems for the built environment and to demonstrate the ability to document a comprehensive architectural project.

4A

AS | Design Documentation/Analysis


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AS | Design Documentation/Analysis


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CS | Introduction to Critical Studies

Pacific Standard Time: Crosscurrents Museums have evolved through the years as a venue for viewing important pieces of painting, sculptures, photographs, and motion pictures. It’s a space created to inform and influence viewers of the techniques, movements and styles of the pieces that are on display. Museum design can take many different forms, evolving from the “white-cube” type museum which is still prominent today to a more complex geometrical spatial gallery. The museum itself is a symbol of the significance it holds within the urban context. The gallery space is a crucial factor in this whole ensemble of parts. The gallery space determines the feeling or mood of the exhibition through the way people circulate through the space as well as the geometry of the floor plan Lighting, materiality of the walls, ceilings and floors are qualities of the space that affect the perception of the work. Pacific Standard Time: Crosscurrents in L.A. Paintings and Sculpture focuses on the painting and sculpture produced in Southern California from the late 1940s to the early 1970s. “The exhibition will feature nearly 50 artists and will include multiple works from each, on loan from preeminent national and international collections, allowing visitors to get a sense of the distinctiveness of individual practices as well as the place of Southern California artists within broader historical movements.” This vast exhibition is very large spread over 65 galleries in and around southern California and carries with it a lot of social presence which might make it successful due to the sheer scale of the exhibition no matter how the Getty curates and displays it. The exhibition at the Getty is very successful not because of the breadth of work but how they organized the works in the space as well as the way they displayed the work. The first room contained a lot of hard-edge paintings juxtaposed to strongly textured ceramic sculptures. “These two distinct movements, ceramic sculpture and hard-edge painting, are rarely exhibited together, but in Los Angeles, this work was happening at the same time. Many of these artists knew each other—and seeing the works together, it’s easy to imagine that their use of color and form influenced one another.” (Hood) The angular space allows the viewer to flow with the work rather than having a rectangular space which doesn’t flow but gathers people. The lighting of each sculpture emphasized its aggressive technique to achieve a strong contrast in the texture of the piece. Towards the end of the first room, the oblique shape allows for the viewer to see a difference

in wall color which draws them in due to curiosity. This technique works well for Cross Currents because the circulation of the exhibition is linear and allows the viewers to feel the movement of the new approaches, techniques, and subjects of the pieces. Each room is categorized into a technique of L.A. art making which shows the abundance of innovation of material usage and process after World War II. The next room collects assemblage sculpture and collage pieces prominent in the 1950s. The welded steel pieces by Melvin Edwards contrasted with the collages of various artists work well together because the assemblages are a three dimensional collage which reaches dynamically out to the viewer. The room has a sense of unity because of the techniques the artists used to produce these pieces. “…share a traditional, basically chronological arrangement of the works in the collection by the national school, movement or style, and individual artist. This type of display has been criticized on the grounds that it reduces the complexity and variety of artistic production to a strictly unified narrative, expressing a single dominant point of view….” (Barker) The arrangement of pieces at the Getty show how each technique influenced another and strengthens the exhibition because of the organization of the artistic movement in that time period. The third room is dim with black walls to focus on the film which was projected onto a white wall. The circulation path is between the viewer and the screen which breaks up the film and keeps people flowing through the space. The fourth room displays 10-large-scale masterpieces of “advanced modes of painting”. These large scale paintings are shown in a traditional way as a “white-cube” museum would display them to set up the final room. The final room houses industrial influenced art pieces. This room was the largest room and was divided into two by a floating partition wall. This large space allowed these optical illusion pieces to have a greater impact on the viewer. The geometry of the gallery space was perfect for this exhibition because the flow through the space was like a river flowing. The flow of techniques and art movements are seen and felt in the space. Each room had its own flow but remnants of the last crossed into the next and so forth. Holding this exhibition in a white-cube museum wouldn’t have had the same effect that it does in the Getty. The cross current or cross technique of the works were organized in a logical way to show how a technique influenced another and vice versa. Pacific Standard Time: Crosscurrents was a beautifully curated exhibition in a perfect gallery space for it.


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Cs 3040 | Introduction to Critical Studies Dora Epstein-Jones Ph.d Writing Assignment | Exhibition Review: How to tell a Good One from a Bad One? Write a review of the Pacific Standard Time: Crosscurrents in L.A. Try to make a case for judging the work and its history against the design of the exhibition itself.

At one point, not long ago, architecture went from “Architecture”, one of the greatest marks of human achievement on the face of the earth, to “architecture”, amounting to little more than questionable, quavering, provisionary and insecure se of defining characteristics. Everything is up for debate, hence, everything is more easily identifi ed through its, argument, or position, than through any priori truth. This course is dedicated to the position- what it is, why it is no important to architectural culture, the discourses and disciplines htat have informed and transformed argument, the sensibility of criticality- and most importantly, how

arguments are enunciated through the presence of the work. This course prepares students to develop positions and/or make arguments in their thesis work.

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CS | Introduction to Critical Studies


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AS | Robotics Fabrication: Experiments In Control


079

As 2374 | Robotic Fabrication_Experiments In Control William Andrew Atwood

Robotic Fabrication: Experiments in Control Beginning with an introduction to basic principles and techniques of robotic movement and control, this course develops tools and techniques for controlling multiple six axis robotic arms in increasingly synchronous ways. Through a series of workshops, lectures and class discussions, students develop the technical skills related to robotic movement as well as the necessary intellectual arguments related to concepts and theories of

control. The course includes topics such as forward and inverse kinematics, rigging, and programming and the integration of various strategies for end arm tooling. Students are expected to develop robust processes of control leading to a series of fabrications using 2-5 robots.

4A

AS | Robotics Fabrication: Experiments In Control


080

Light path drawing

The light drawing exercise was the first time we got to control the robots with a designed path. With the given premise of creating a drawing out of light, we thought about various ways to control the line weight and linetype of the light drawing. This series of light drawings were captured with a photography technique called long exposure, usually used to capture images in low light conditions.

AS | Robotics Fabrication: Experiments In Control


AS | Robotics Fabrication: Experiments In Control

081


082

Light drawing

AS | Robotics Fabrication: Experiments In Control


AS | Robotics Fabrication: Experiments In Control

083


084

Digital line drawing

The drawing produced by robot is quite different than the digital drawing. This exercise displayed the limitations of the rotation of the sixth-axis. The misfigured drawing is a result of the sixth axis adjusting for the given path.

AS | Robotics Fabrication: Experiments In Control

Pen tool


AS | Robotics Fabrication: Experiments In Control

Robotic pen drawing

085


086

Hot wire cutter mounted on the robotic arm

AS | Robotics Fabrication: Experiments In Control

Robotic path drawing


AS | Robotics Fabrication: Experiments In Control

Foam model

087


088

AS | Robotics Fabrication: Experiments In Control


AS | Robotics Fabrication: Experiments In Control

Misfigures Final Project | Layered Catenary Videos of process available on Vimeo: Layered Catenary | http://vimeo.com/34278983 End arm tool assembly | http://vimeo.com/33852288

Our ultimate objective will be the development of robust processes of control which produce a series of misfigures. The projects will begin with the re-representation and fabrication of an existing architectural figure. As we develop more sophisticated processes of production, we will begin to examine moments of “infidelity� in our figures. As the semester progresses we will continue to add axes of movement to our processes.

089


090

End arm tool design

The development of the end arm tool took about two weeks to design and develop. It started off with a series of prototypes which was finally modified and calibrated into a reliable end arm tool. The trigger mechanism is actuated by a two-way pneumatic piston which is controlled by the integrated air system in the robot arm. The air system is controlled by grasshopper in a series of “I’s” and “O’s”, to constantly pull the trigger in a rhythmic manner keeping the flow of the hot glue consistent.

AS | Robotics Fabrication: Experiments In Control



092

Process photos

AS | Robotics Fabrication: Experiments In Control


AS | Robotics Fabrication: Experiments In Control

093


094

Process photos

Tool path

AS | Robotics Fabrication: Experiments In Control


AS | Robotics Fabrication: Experiments In Control

095


096

AS | Construction Documents PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PROJECT SUMMARY

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

Legal Description

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT


AS | Construction Documents

097

As 3401 | Construction Documents Jay Vanos Project | Compact Cantilever House Project | Generate a Complete Set

The goal of this course is to provide students with a comprehensive knowledge of the perfectible craft of construction documentation- a standardized language developed to clearly communicate complex designs to a third party and the architect’s legal responsibilities-including the AIA Code of Ethics and Regulations Statutes. Students refine their skills through the production of a full construction documentation package-drawn in 2D and 3D CAD- for a small to medium-scale single story residence. In doing

so they also develop an understanding of what types of technically precise documents and outlined specifications need to be produced and in what sequence-and of the languages of other disciplines-such as mechanicalelectrical-and acoustical engineering. Attention is place on student’s understanding of registration law-building codes and regulations- professional service contractszoning and sub-division ordnances- environmental regulations and other licensure concerns.


098

AS | Construction Documents PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

WM GM EM EP SS SDO

SDL

TV TEL

TR IV

PP GO SWF TF MB RU SDL SDO 1 2 3 4 5 6 7 8

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

10

11

R

E

'

60

6.

5'

7.2

5'

7.2

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

Legal Description

9

'

60

6.

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT


099

AS | Construction Documents

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

EXTERIOR NOTES 1

EXTERIOR NOTES

ROOF TYPE 1:

1

Decorative Gravel (where occurs) o/ UL Class "A" Modified Bitumen Cap Sheet Roofing : Certain Teed "Flintlastic FR-P" ICC (ESR-1388). FRP-N-B3 (15 yr) o/ PW o/ 2x Rip strips w/ min 1/4":12" slope o/ PW o/ RR.

2

2

3

WALL TYPES SEE A0.1, A0.2, A0.3

#

EXTERIOR WALL FINISH 1:

4

7/8" Exteror Portland Cement Plaster

6

8

5

EXTERIOR WALL FINISH 3:

6

22 ga Painted Sheet Metal Panel

EXTERIOR WALL FINISH 4:

7

10

8

9

10

w/

11

12

13

14

15

" Lam glass Panel w/ TS 2x4x14" supports.

16

EXTERIOR DOOR TYPE 1: EXTERIOR DOOR TYPE 2:

" Lam glass Panel w/ TS 2x4x14" supports.

16

EXTERIOR DOOR TYPE 1:

17

EXTERIOR DOOR TYPE 2:

Alum. Storefront Door w/ 716" Lam. Glass

Alum. Storefront Door w/ 716" Lam. Glass 12

" Temp Glass Door- Frameless/ Pivot hinges

2

18

" Temp Glass Door- Frameless/ Pivot hinges

EXTERIOR DOOR TYPE 3:

18

Powder coated Alum. Multi-slide (Fleetwood) w/ 1" Dual Glass 3

19 20

19

WINDOW TYPE 1:

20

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

Legal Description

EXTERIOR TERRACE/ FLOOR TYPE 2: 3 4 Ipe wood decking o/ Excel-Coat Class 'A' 1-HR Fire Rated, Acrylic Deck Coating System as Mfgr by Excellent Coatings, Inc.(ICBO ER-4804) o/ wpg and structure.

SKYLIGHT:

Lane-Aire Manufacturing / LARR #02708

EXTERIOR GATE: Ipe wood o/ 2x2x14" Tube Steel structure.

26

FIREPLACE / VENT CHIMNEY:

27

GARAGE DOOR:

Spark Modern Fires; Direct-Vent Gas Fireplace Heaters w/ Simpson Dura-Vent Direct Vent Pro (3':ANSI Z21.88-2005/CSA2.33-2005 or 6':ANSI Z21.88a-2007/CSA2.33a-2007 per plan)

Sectional Overhead Door

INTERIOR NOTES A

GARAGE FLOOR: Elastomeric Traffic coating o/Reinf. Conc. Slab,

B C

D E

INTERIOR FLOOR TYPE 1: Stone Tile o/ Reinforced Concrete Slab

INTERIOR FLOOR TYPE 2: 3 4" Hardwood Flooring o/ PW o/ 2x sleepers o/ Reinforced Concrete Slab

INTERIOR FLOOR TYPE 3: Carpet o/ Pad o/ Reinforced Concrete Slab

INTERIOR FLOOR TYPE 4: Resilent rubber tile o/ Reinf Conc. Slab

F

G

INTERIOR FLOOR TYPE 5: 12"

Stone Tile o/ 112" Lt Wt Conc. o/ Acoust. Memb. o/ 118" PW. Glue/Nailed (Annular Ring) o/ FJ.

INTERIOR FLOOR TYPE 6: 3 " Hardwood Flooring o/ 3 " PW o/ 1x Sleepers o/ 112" Lt Wt 4 4 Conc o/ Acoust. Memb. o/ 118" PW Glued/Nailed (Annular Ring) o/FJ

1 A7.1

H

8"

4"

FIREPLACE / VENT CHIMNEY:

27

GARAGE DOOR:

Spark Modern Fires; Direct-Vent Gas Fireplace Heaters w/ Simpson Dura-Vent Direct Vent Pro (3':ANSI Z21.88-2005/CSA2.33-2005 or 6':ANSI Z21.88a-2007/CSA2.33a-2007 per plan)

Sectional Overhead Door

INTERIOR NOTES A

D E

G

R

L

INT. WALL FIN 4:

N

P

INTERIOR DOORS (SOLID)

R

S

S3

STRUCTURAL WOOD FRAMING:

S4 S5 S6

M1 M2

HVAC SYSTEM INDOOR UNITS

M3

DUCTS/ DISTRIBUTION DEVICES

P1

ROOF DRAIN/ OVERFLOW ROOF DRAIN

P2

AREA DRAIN

E1

ELECT. PANEL

E2

ELECT. PANEL

LIGHTING/ DEVICES

E3

LIGHTING/ DEVICES

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

EXTERIOR NOTES 1

#

EXTERIOR WALL FINISH 1:

4

7/8" Exteror Portland Cement Plaster 5

EXTERIOR WALL FINISH 3:

6

EXTERIOR WALL FINISH 4:

7

FACIA/CLADDING/GUTTERS TYPE 1:

8

22 ga Painted Sheet Metal Panels

10

9

10

TS 12

w/

11 Glass Infill. 42" Min. Ht. 12

16

EXTERIOR DOOR TYPE 1: EXTERIOR DOOR TYPE 2:

16

EXTERIOR DOOR TYPE 1: EXTERIOR DOOR TYPE 2:

18

18

19

1-3/4" HM door and Frame 20

WINDOW TYPE 1:

20

EXTERIOR GATE: Ipe wood o/ 2x2x14" Tube Steel structure.

FIREPLACE / VENT CHIMNEY:

GARAGE DOOR:

Spark Modern Fires; Direct-Vent Gas Fireplace Heaters w/ Simpson Dura-Vent Direct Vent Pro (3':ANSI Z21.88-2005/CSA2.33-2005 or 6':ANSI Z21.88a-2007/CSA2.33a-2007 per plan)

Sectional Overhead Door

INTERIOR NOTES A

GARAGE FLOOR: Elastomeric Traffic coating o/Reinf. Conc. Slab,

B C

D E

INTERIOR FLOOR TYPE 1: Stone Tile o/ Reinforced Concrete Slab

INTERIOR FLOOR TYPE 2: 3 4" Hardwood Flooring o/ PW o/ 2x sleepers o/ Reinforced Concrete Slab

INTERIOR FLOOR TYPE 3: Carpet o/ Pad o/ Reinforced Concrete Slab

INTERIOR FLOOR TYPE 4: Resilent rubber tile o/ Reinf Conc. Slab

F

G

INTERIOR FLOOR TYPE 5: 12"

Stone Tile o/ 112" Lt Wt Conc. o/ Acoust. Memb. o/ 118" PW. Glue/Nailed (Annular Ring) o/ FJ.

INTERIOR FLOOR TYPE 6: 3 3 12 4" Hardwood Flooring o/ 4" PW o/ 1x Sleepers o/ 1 " Lt Wt Conc o/ Acoust. Memb. o/ 118" PW Glued/Nailed (Annular Ring) o/FJ

H

8"

4"

GARAGE DOOR: Sectional Overhead Door

INTERIOR NOTES A

D E

G

L

R

N

P

INTERIOR DOORS (SOLID)

R

S

Sectional Overhead Door

INTERIOR NOTES A

D E

S3

STRUCTURAL WOOD FRAMING:

G

S4 S5

L

S6

INTERIOR FLOOR TYPE 6:

CEILING TYPE 1: 8"

Type 'X' Gyp. Bd. o/ framing

CEILING TYPE 2: 4"

Wood Panel o/ 5 8" Type 'X' Gyp. Bd. o/ framing

WALL TYPES SEE A0.2 INT. WALL FIN 1: 5

8"

Type 'X' Gyp. Bd.

INT. WALL FIN 2: INT. WALL FIN 3: Stone Tile

INT. WALL FIN 4:

N

INT. WALL FIN 4: 3

PW. Wood Panel (to match cabinets)

CABINETRY:

P

4"

PW. Wood Panel (to match cabinets)

CABINETRY: Hardwood faces, Stone countertops

INTERIOR DOORS (SOLID)

R

INTERIOR DOORS (SOLID) 1-3/4" Solid Core Hardwood Veneer

INTERIOR DOORS (GLAZED)

S

INTERIOR DOORS (GLAZED) Aluminum Storefront w/ 5/16' lam translucent glass

STRUCTURAL

FOUNDATION:

S1

FOUNDATION: Cast in Place Reinforced Conc. Foundation (See Structural Drawings)

RETAINING WALL:

S2

RETAINING WALL: CMU wall, plaster where exposed. See Civil/Struct. Dwgs. for notes.

S3

STRUCTURAL WOOD FRAMING:

STRUCTURAL WOOD FRAMING: See Structural

STRUCTURAL STEEL FRAMING:

S4

STRUCTURAL STEEL FRAMING: See Structural

CONCRETE SLAB ON GRADE:

S5

CONCRETE SLAB ON GRADE: See Structural

STRUCTURAL CONCRETE DECK:

S6

See Structural

M1

INTERIOR FLOOR TYPE 5:

Stone Veneer M

STRUCTURAL CONCRETE DECK: See Structural

MECHANICAL

HVAC SYSTEM OUTDOOR UNITS

INTERIOR FLOOR TYPE 4:

Stone Tile o/ 112" Lt Wt Conc. o/ Acoust. Memb. o/ 118" PW. Glue/Nailed (Annular Ring) o/ FJ.

3

# K

Type 'X' Gyp. Bd.

See Structural

STRUCTURAL CONCRETE DECK:

INTERIOR FLOOR TYPE 3: Carpet o/ Pad o/ Reinforced Concrete Slab

5

J

Wood Panel o/ 5 8" Type 'X' Gyp. Bd. o/ framing

INT. WALL FIN 1:

See Structural

CONCRETE SLAB ON GRADE:

INTERIOR FLOOR TYPE 2: 3 4" Hardwood Flooring o/ PW o/ 2x sleepers o/ Reinforced Concrete Slab

12"

3 3 12 4" Hardwood Flooring o/ 4" PW o/ 1x Sleepers o/ 1 " Lt Wt Conc o/ Acoust. Memb. o/ 118" PW Glued/Nailed (Annular Ring) o/FJ

H

Type 'X' Gyp. Bd. o/ framing

WALL TYPES SEE A0.2

See Structural

STRUCTURAL STEEL FRAMING:

See Structural See Structural

INTERIOR FLOOR TYPE 1: Stone Tile o/ Reinforced Concrete Slab

Resilent rubber tile o/ Reinf Conc. Slab F

CMU wall, plaster where exposed. See Civil/Struct. Dwgs. for notes.

MECHANICAL

GARAGE FLOOR: Elastomeric Traffic coating o/Reinf. Conc. Slab,

B C

Cast in Place Reinforced Conc. Foundation (See Structural Drawings) S2

See Structural

S6

GARAGE DOOR:

Aluminum Storefront w/ 5/16' lam translucent glass

S1

RETAINING WALL:

See Structural S4

FIREPLACE / VENT CHIMNEY:

27

Spark Modern Fires; Direct-Vent Gas Fireplace Heaters w/ Simpson Dura-Vent Direct Vent Pro (3':ANSI Z21.88-2005/CSA2.33-2005 or 6':ANSI Z21.88a-2007/CSA2.33a-2007 per plan)

STRUCTURAL

FOUNDATION:

EXTERIOR GATE: Ipe wood o/ 2x2x14" Tube Steel structure.

INT. WALL FIN 2:

4"

SKYLIGHT:

Lane-Aire Manufacturing / LARR #02708

26

1-3/4" Solid Core Hardwood Veneer

INTERIOR DOORS (GLAZED) Aluminum Storefront w/ 5/16' lam translucent glass

S3

4"

EXTERIOR TERRACE/ FLOOR TYPE 2: 3 4 Ipe wood decking o/ Excel-Coat Class 'A' 1-HR Fire Rated, Acrylic Deck Coating System as Mfgr by Excellent Coatings, Inc.(ICBO ER-4804) o/ wpg and structure.

CEILING TYPE 2:

8"

EXTERIOR TERRACE/ FLOOR TYPE 1: Stone Tile o/ Structure

24 25

CEILING TYPE 1: 8"

WINDOW TYPE 2: Aluminum Sash and Frame w/ dual pane, low E glass. Tempered per code.

22 23

Hardwood faces, Stone countertops

CMU wall, plaster where exposed. See Civil/Struct. Dwgs. for notes.

S5

Legal Description

INT. WALL FIN 3:

3

PW. Wood Panel (to match cabinets)

CABINETRY:

Cast in Place Reinforced Conc. Foundation (See Structural Drawings)

M1

INTERIOR FLOOR TYPE 6:

5

WINDOW TYPE 1: Alum. Storefront w/Dual pane, Low E glass, Temp per code.

Stone Tile

1-3/4" Solid Core Hardwood Veneer S

20

21

Stone Veneer

STRUCTURAL

S2

INTERIOR FLOOR TYPE 5:

3

# K

M

Hardwood faces, Stone countertops

S1

INTERIOR FLOOR TYPE 3: INTERIOR FLOOR TYPE 4:

Stone Tile o/ 112" Lt Wt Conc. o/ Acoust. Memb. o/ 118" PW. Glue/Nailed (Annular Ring) o/ FJ.

5

J

Wood Panel o/ 5 8" Type 'X' Gyp. Bd. o/ framing

Type 'X' Gyp. Bd.

INT. WALL FIN 4: 4"

INTERIOR FLOOR TYPE 2:

Carpet o/ Pad o/ Reinforced Concrete Slab

12"

3 3 12 4" Hardwood Flooring o/ 4" PW o/ 1x Sleepers o/ 1 " Lt Wt Conc o/ Acoust. Memb. o/ 118" PW Glued/Nailed (Annular Ring) o/FJ

H

Type 'X' Gyp. Bd. o/ framing

INT. WALL FIN 2: INT. WALL FIN 3:

3

INTERIOR FLOOR TYPE 1: Stone Tile o/ Reinforced Concrete Slab 3 4" Hardwood Flooring o/ PW o/ 2x sleepers o/ Reinforced Concrete Slab

Resilent rubber tile o/ Reinf Conc. Slab F

Stone Tile

P

GARAGE FLOOR: Elastomeric Traffic coating o/Reinf. Conc. Slab,

B C

Stone Veneer

N

EXTERIOR GATE: FIREPLACE / VENT CHIMNEY:

27

Spark Modern Fires; Direct-Vent Gas Fireplace Heaters w/ Simpson Dura-Vent Direct Vent Pro (3':ANSI Z21.88-2005/CSA2.33-2005 or 6':ANSI Z21.88a-2007/CSA2.33a-2007 per plan)

INT. WALL FIN 1: 8"

SKYLIGHT:

Lane-Aire Manufacturing / LARR #02708 Ipe wood o/ 2x2x14" Tube Steel structure.

WALL TYPES SEE A0.2 5

EXTERIOR TERRACE/ FLOOR TYPE 1: EXTERIOR TERRACE/ FLOOR TYPE 2: 3 4 Ipe wood decking o/ Excel-Coat Class 'A' 1-HR Fire Rated, Acrylic Deck Coating System as Mfgr by Excellent Coatings, Inc.(ICBO ER-4804) o/ wpg and structure.

26

EXTERIOR DOOR TYPE 4: 1-3/4" HM door and Frame

WINDOW TYPE 1:

Stone Tile o/ Structure

24 25

EXTERIOR DOOR TYPE 3: Powder coated Alum. Multi-slide (Fleetwood) w/ 1" Dual Glass

19

WINDOW TYPE 2: Aluminum Sash and Frame w/ dual pane, low E glass. Tempered per code.

22 23

CEILING TYPE 2: 3

L

Legal Description

CEILING TYPE 1: 5

J

# K

M

18

EXTERIOR DOOR TYPE 4:

MECHANICAL

HVAC SYSTEM OUTDOOR UNITS

M1

HVAC SYSTEM OUTDOOR UNITS

HVAC SYSTEM INDOOR UNITS

M2

HVAC SYSTEM INDOOR UNITS

M2

HVAC SYSTEM INDOOR UNITS

DUCTS/ DISTRIBUTION DEVICES

M3

DUCTS/ DISTRIBUTION DEVICES

M3

DUCTS/ DISTRIBUTION DEVICES

P1

ROOF DRAIN/ OVERFLOW ROOF DRAIN

P1

ROOF DRAIN/ OVERFLOW ROOF DRAIN

P1

ROOF DRAIN/ OVERFLOW ROOF DRAIN

P2

AREA DRAIN

P2

AREA DRAIN

P2

AREA DRAIN

M2 M3

P3 PLUMBING PIPES ELECTRICAL E1

P3 PLUMBING PIPES ELECTRICAL

ELECT. SERVICE/ METER

E1

P3 PLUMBING PIPES ELECTRICAL

ELECT. SERVICE/ METER

E1

ELECT. SERVICE/ METER

E2

ELECT. PANEL

E2

ELECT. PANEL

E2

ELECT. PANEL

E3

LIGHTING/ DEVICES

E3

LIGHTING/ DEVICES

E3

LIGHTING/ DEVICES

Legal Description

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

SKYLIGHT:

Lane-Aire Manufacturing / LARR #02708

27

" Temp Glass Door- Frameless/ Pivot hinges

EXTERIOR DOOR TYPE 3:

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

EXTERIOR TERRACE/ FLOOR TYPE 2: 3 4 Ipe wood decking o/ Excel-Coat Class 'A' 1-HR Fire Rated, Acrylic Deck Coating System as Mfgr by Excellent Coatings, Inc.(ICBO ER-4804) o/ wpg and structure.

26

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

EXTERIOR TERRACE/ FLOOR TYPE 1: Stone Tile o/ Structure

24 25

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

Aluminum Sash and Frame w/ dual pane, low E glass. Tempered per code. 22 23

21

Lam glass Panel w/ TS 2x4x14" supports.

Alum. Storefront Door w/ 716" Lam. Glass 12

Alum. Storefront w/Dual pane, Low E glass, Temp per code.

WINDOW TYPE 2:

SCREEN TYPE 1: EXTERIOR DOOR TYPE 1: EXTERIOR DOOR TYPE 2:

1-3/4" HM door and Frame

Alum. Storefront w/Dual pane, Low E glass, Temp per code. 21

16 17

Powder coated Alum. Multi-slide (Fleetwood) w/ 1" Dual Glass

EXTERIOR DOOR TYPE 4:

GUARDRAIL TYPE 3:

916"

" Temp Glass Door- Frameless/ Pivot hinges

EXTERIOR DOOR TYPE 3:

SCREEN TYPE 1: 112"x112"x20ga TS Horiz o/ 112"x112"x316" Horiz o/ Window or Exterior Wall (per plan).

Alum. Storefront Door w/ 716" Lam. Glass

Powder coated Alum. Multi-slide (Fleetwood) w/ 1" Dual Glass

GUARDRAIL TYPE 2: Crane Veyor Corporation, LARR #25784 Temp Structural Glass w/ cont. Steel top rail. Min 42" Ht.

112"x112"x20ga TS Horiz o/ 112"x112"x316" Horiz @ 42" min Ht.

15

12

" Temp Glass Door- Frameless/ Pivot hinges

FACIA/CLADDING/GUTTERS TYPE 1: FACIA/CLADDING/GUTTERS TYPE 2:

12"

13

14

Lam glass Panel w/ TS 2x4x14" supports.

17

Alum. Storefront Door w/ 716" Lam. Glass 12

19

12

SCREEN TYPE 1: 916"

EXTERIOR WALL FINISH 4:

GUARDRAIL TYPE 1: TS 2x4x14"Verts w/ 916"Lam. Glass Infill. 42" Min. Ht.

Glass Infill. 42" Min. Ht.

SCREEN TYPE 1: 112"x112"x20ga TS Horiz o/ 112"x112"x316" Horiz o/ Window or Exterior Wall (per plan).

15

Lam glass Panel w/ TS 2x4x14" supports.

17

w/

GUARDRAIL TYPE 3: 112"x112"x20ga TS Horiz o/ 112"x112"x316" Horiz @ 42" min Ht.

14

SCREEN TYPE 1: 916"

GUARDRAIL TYPE 2: Crane Veyor Corporation, LARR #25784 Temp Structural Glass w/ cont. Steel top rail. Min 42" Ht.

13

SCREEN TYPE 1: 112"x112"x20ga TS Horiz o/ 112"x112"x316" Horiz o/ Window or Exterior Wall (per plan).

EXTERIOR WALL FINISH 3: 22 ga Painted Sheet Metal Panel

22 ga Painted Sheet Metal Panels

EXPOSED STRUCTURAL STEEL COLUMNS: Structural Steel columns in cluster of 3 at varying sizes. Painted. See structural dwgs.

11

12"

GUARDRAIL TYPE 3: 112"x112"x20ga TS Horiz o/ 112"x112"x316" Horiz @ 42" min Ht.

15

916"Lam.

EXTERIOR WALL FINISH 2:

22 ga Galvanized Sheet Metal 10

GUARDRAIL TYPE 1: TS

GUARDRAIL TYPE 2: Crane Veyor Corporation, LARR #25784 Temp Structural Glass w/ cont. Steel top rail. Min 42" Ht.

12"

13

14

8

9

EXPOSED STRUCTURAL STEEL COLUMNS:

2x4x14"Verts

EXTERIOR WALL FINISH 1:

1" Stone Veneer

22 ga Galvanized Sheet Metal

FACIA/CLADDING/GUTTERS TYPE 1: FACIA/CLADDING/GUTTERS TYPE 2:

Structural Steel columns in cluster of 3 at varying sizes. Painted. See structural dwgs.

GUARDRAIL TYPE 1: 916"Lam.

7

22 ga Galvanized Sheet Metal

EXPOSED STRUCTURAL STEEL COLUMNS:

2x4x14"Verts

6

EXTERIOR WALL FINISH 4:

22 ga Painted Sheet Metal Panels

FACIA/CLADDING/GUTTERS TYPE 2:

Structural Steel columns in cluster of 3 at varying sizes. Painted. See structural dwgs. 11

5

EXTERIOR WALL FINISH 3: 22 ga Painted Sheet Metal Panel

22 ga Galvanized Sheet Metal

22 ga Galvanized Sheet Metal

WALL TYPES SEE A0.1, A0.2, A0.3 7/8" Exteror Portland Cement Plaster

EXTERIOR WALL FINISH 2: 1" Stone Veneer

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

8

SOFFIT TYPE 2: 3/4" Wood Panel (VGDF) o/ 15# paper o/ 5/8" Fire rated exterior gyp bd o/ framing

WALL TYPES SEE A0.1, A0.2, A0.3

4

22 ga Painted Sheet Metal Panel

SOFFIT TYPE 1: 7/8" Exterior Plaster o/ framing

3

#

EXTERIOR WALL FINISH 1: EXTERIOR WALL FINISH 2:

ROOF TYPE 1: Decorative Gravel (where occurs) o/ UL Class "A" Modified Bitumen Cap Sheet Roofing : Certain Teed "Flintlastic FR-P" ICC (ESR-1388). FRP-N-B3 (15 yr) o/ PW o/ 2x Rip strips w/ min 1/4":12" slope o/ PW o/ RR.

2

SOFFIT TYPE 2: 3/4" Wood Panel (VGDF) o/ 15# paper o/ 5/8" Fire rated exterior gyp bd o/ framing

WALL TYPES SEE A0.1, A0.2, A0.3

9

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

1

1

SOFFIT TYPE 1: 7/8" Exterior Plaster o/ framing

3

22 ga Galvanized Sheet Metal

A7.1

EXTERIOR NOTES

ROOF TYPE 1: Decorative Gravel (where occurs) o/ UL Class "A" Modified Bitumen Cap Sheet Roofing : Certain Teed "Flintlastic FR-P" ICC (ESR-1388). FRP-N-B3 (15 yr) o/ PW o/ 2x Rip strips w/ min 1/4":12" slope o/ PW o/ RR.

2

1" Stone Veneer

ELECT. SERVICE/ METER

E2 E3

7/8" Exteror Portland Cement Plaster

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

P3 PLUMBING PIPES ELECTRICAL

ELECT. SERVICE/ METER

#

6

HVAC SYSTEM OUTDOOR UNITS

HVAC SYSTEM INDOOR UNITS

4

7

STRUCTURAL CONCRETE DECK: See Structural

MECHANICAL

HVAC SYSTEM OUTDOOR UNITS

ROOF DRAIN/ OVERFLOW ROOF DRAIN

3/4" Wood Panel (VGDF) o/ 15# paper o/ 5/8" Fire rated exterior gyp bd o/ framing

5

CONCRETE SLAB ON GRADE: See Structural

STRUCTURAL CONCRETE DECK:

AREA DRAIN

7/8" Exterior Plaster o/ framing

SOFFIT TYPE 2:

STRUCTURAL STEEL FRAMING: See Structural

CONCRETE SLAB ON GRADE:

DUCTS/ DISTRIBUTION DEVICES

Decorative Gravel (where occurs) o/ UL Class "A" Modified Bitumen Cap Sheet Roofing : Certain Teed "Flintlastic FR-P" ICC (ESR-1388). FRP-N-B3 (15 yr) o/ PW o/ 2x Rip strips w/ min 1/4":12" slope o/ PW o/ RR.

SOFFIT TYPE 1:

STRUCTURAL WOOD FRAMING: See Structural

STRUCTURAL STEEL FRAMING:

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

ROOF TYPE 1:

RETAINING WALL:

P2

E1

3

PW. Wood Panel (to match cabinets)

INTERIOR DOORS (SOLID) INTERIOR DOORS (GLAZED)

FOUNDATION:

P1

M2 M3

P3 PLUMBING PIPES ELECTRICAL

2

Wood Panel o/ 5 8" Type 'X' Gyp. Bd. o/ framing

Type 'X' Gyp. Bd.

CMU wall, plaster where exposed. See Civil/Struct. Dwgs. for notes.

See Structural

1

4"

Cast in Place Reinforced Conc. Foundation (See Structural Drawings) S2

See Structural

EXTERIOR NOTES

Type 'X' Gyp. Bd. o/ framing

INT. WALL FIN 4:

Aluminum Storefront w/ 5/16' lam translucent glass

S1

MECHANICAL

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

8"

INT. WALL FIN 2: INT. WALL FIN 3:

CABINETRY:

STRUCTURAL

RETAINING WALL:

See Structural

S6

4"

INT. WALL FIN 1:

1-3/4" Solid Core Hardwood Veneer

INTERIOR DOORS (GLAZED)

FOUNDATION:

See Structural S4

8"

WALL TYPES SEE A0.2

Hardwood faces, Stone countertops

Aluminum Storefront w/ 5/16' lam translucent glass

S3

CEILING TYPE 1: CEILING TYPE 2:

3

PW. Wood Panel (to match cabinets)

CABINETRY:

CMU wall, plaster where exposed. See Civil/Struct. Dwgs. for notes.

S5

INTERIOR FLOOR TYPE 6:

5

Stone Tile

Cast in Place Reinforced Conc. Foundation (See Structural Drawings)

M1

INTERIOR FLOOR TYPE 5:

Stone Veneer

1-3/4" Solid Core Hardwood Veneer S

INTERIOR FLOOR TYPE 4:

Stone Tile o/ 112" Lt Wt Conc. o/ Acoust. Memb. o/ 118" PW. Glue/Nailed (Annular Ring) o/ FJ.

3

# K

M

STRUCTURAL

S2

INTERIOR FLOOR TYPE 3: Carpet o/ Pad o/ Reinforced Concrete Slab

5

J

Wood Panel o/ 5 8" Type 'X' Gyp. Bd. o/ framing

Type 'X' Gyp. Bd.

Hardwood faces, Stone countertops

S1

INTERIOR FLOOR TYPE 2: 3 4" Hardwood Flooring o/ PW o/ 2x sleepers o/ Reinforced Concrete Slab

12"

3 " Hardwood Flooring o/ 3 " PW o/ 1x Sleepers o/ 112" Lt Wt 4 4 Conc o/ Acoust. Memb. o/ 118" PW Glued/Nailed (Annular Ring) o/FJ

H

Type 'X' Gyp. Bd. o/ framing

INT. WALL FIN 2:

4"

INTERIOR FLOOR TYPE 1: Stone Tile o/ Reinforced Concrete Slab

Resilent rubber tile o/ Reinf Conc. Slab F

INT. WALL FIN 3:

3

GARAGE FLOOR: Elastomeric Traffic coating o/Reinf. Conc. Slab,

B C

Stone Tile

P

EXTERIOR GATE:

26

Stone Veneer

N

SKYLIGHT:

Lane-Aire Manufacturing / LARR #02708 Ipe wood o/ 2x2x14" Tube Steel structure.

INT. WALL FIN 1: 8"

Legal Description

EXTERIOR TERRACE/ FLOOR TYPE 2: 3 4 Ipe wood decking o/ Excel-Coat Class 'A' 1-HR Fire Rated, Acrylic Deck Coating System as Mfgr by Excellent Coatings, Inc.(ICBO ER-4804) o/ wpg and structure.

WALL TYPES SEE A0.2 5

EXTERIOR TERRACE/ FLOOR TYPE 1: Stone Tile o/ Structure

24 25

CEILING TYPE 2: 3

L

Aluminum Sash and Frame w/ dual pane, low E glass. Tempered per code. 22 23

1 A7.1

CEILING TYPE 1: 5

J

# K

M

WINDOW TYPE 2:

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

EXTERIOR TERRACE/ FLOOR TYPE 1: Stone Tile o/ Structure

24 25

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

21

Aluminum Sash and Frame w/ dual pane, low E glass. Tempered per code. 22 23

WINDOW TYPE 1: Alum. Storefront w/Dual pane, Low E glass, Temp per code.

WINDOW TYPE 2:

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

1 A7.1

EXTERIOR DOOR TYPE 4: 1-3/4" HM door and Frame

Alum. Storefront w/Dual pane, Low E glass, Temp per code.

Legal Description

EXTERIOR DOOR TYPE 3: Powder coated Alum. Multi-slide (Fleetwood) w/ 1" Dual Glass

EXTERIOR DOOR TYPE 4: 1-3/4" HM door and Frame

21

SCREEN TYPE 1: 916

12

4

SCREEN TYPE 1: 112"x112"x20ga TS Horiz o/ 112"x112"x316" Horiz o/ Window or Exterior Wall (per plan).

SCREEN TYPE 1: 916

17

GUARDRAIL TYPE 3: 112"x112"x20ga TS Horiz o/ 112"x112"x316" Horiz @ 42" min Ht.

SCREEN TYPE 1: 112"x112"x20ga TS Horiz o/ 112"x112"x316" Horiz o/ Window or Exterior Wall (per plan).

1

GUARDRAIL TYPE 2: Crane Veyor Corporation, LARR #25784 Temp Structural Glass w/ cont. Steel top rail. Min 42" Ht.

12"

GUARDRAIL TYPE 3: 112"x112"x20ga TS Horiz o/ 112"x112"x316" Horiz @ 42" min Ht.

15

FACIA/CLADDING/GUTTERS TYPE 1: FACIA/CLADDING/GUTTERS TYPE 2:

GUARDRAIL TYPE 1: TS 2x4x14"Verts w/ 916"Lam. Glass Infill. 42" Min. Ht.

Glass Infill. 42" Min. Ht.

GUARDRAIL TYPE 2: Crane Veyor Corporation, LARR #25784 Temp Structural Glass w/ cont. Steel top rail. Min 42" Ht.

12"

13

14

EXTERIOR WALL FINISH 4:

EXPOSED STRUCTURAL STEEL COLUMNS: Structural Steel columns in cluster of 3 at varying sizes. Painted. See structural dwgs.

GUARDRAIL TYPE 1: TS

12

EXTERIOR WALL FINISH 3: 22 ga Painted Sheet Metal Panel

22 ga Galvanized Sheet Metal

EXPOSED STRUCTURAL STEEL COLUMNS: Structural Steel columns in cluster of 3 at varying sizes. Painted. See structural dwgs. 916"Lam.

EXTERIOR WALL FINISH 2:

22 ga Painted Sheet Metal Panels

FACIA/CLADDING/GUTTERS TYPE 2:

2x4x14"Verts

EXTERIOR WALL FINISH 1:

1" Stone Veneer

22 ga Galvanized Sheet Metal

FACIA/CLADDING/GUTTERS TYPE 1: 22 ga Painted Sheet Metal Panels

22 ga Galvanized Sheet Metal

11

WALL TYPES SEE A0.1, A0.2, A0.3 7/8" Exteror Portland Cement Plaster

EXTERIOR WALL FINISH 2: 1" Stone Veneer

22 ga Galvanized Sheet Metal

9

SOFFIT TYPE 2: 3/4" Wood Panel (VGDF) o/ 15# paper o/ 5/8" Fire rated exterior gyp bd o/ framing

# 4

7

SOFFIT TYPE 1: 7/8" Exterior Plaster o/ framing

SOFFIT TYPE 2: 3/4" Wood Panel (VGDF) o/ 15# paper o/ 5/8" Fire rated exterior gyp bd o/ framing

5

ROOF TYPE 1: Decorative Gravel (where occurs) o/ UL Class "A" Modified Bitumen Cap Sheet Roofing : Certain Teed "Flintlastic FR-P" ICC (ESR-1388). FRP-N-B3 (15 yr) o/ PW o/ 2x Rip strips w/ min 1/4":12" slope o/ PW o/ RR.

SOFFIT TYPE 1: 7/8" Exterior Plaster o/ framing

3

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT


100

AS | Construction Documents PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

EXTERIOR NOTES 1

ROOF TYPE 1: Decorative Gravel (where occurs) o/ UL Class "A" Modified Bitumen Cap Sheet Roofing : Certain Teed "Flintlastic FR-P" ICC (ESR-1388). FRP-N-B3 (15 yr) o/ PW o/ 2x Rip strips w/ min 1/4":12" slope o/ PW o/ RR.

2

SOFFIT TYPE 1: 7/8" Exterior Plaster o/ framing

3

SOFFIT TYPE 2: 3/4" Wood Panel (VGDF) o/ 15# paper o/ 5/8" Fire rated exterior gyp bd o/ framing

# 4

WALL TYPES SEE A0.1, A0.2, A0.3 EXTERIOR WALL FINISH 1: 7/8" Exteror Portland Cement Plaster

5

6 7

EXTERIOR WALL FINISH 2: 1" Stone Veneer

EXTERIOR WALL FINISH 3: 22 ga Painted Sheet Metal Panel

EXTERIOR WALL FINISH 4: 22 ga Galvanized Sheet Metal

8

FACIA/CLADDING/GUTTERS TYPE 1: 22 ga Painted Sheet Metal Panels

9

FACIA/CLADDING/GUTTERS TYPE 2: 22 ga Galvanized Sheet Metal

10

EXPOSED STRUCTURAL STEEL COLUMNS: Structural Steel columns in cluster of 3 at varying sizes. Painted. See structural dwgs.

11

GUARDRAIL TYPE 1: TS 2x4x1 4"Verts w/ 9 16"Lam. Glass Infill. 42" Min. Ht.

12

GUARDRAIL TYPE 2: Crane Veyor Corporation, LARR #25784 2" Temp Structural Glass w/ cont. Steel top rail. Min 42" Ht.

1

13

GUARDRAIL TYPE 3: 112"x112"x20ga TS Horiz o/ 112"x112"x3 16" Horiz @ 42" min Ht.

14

SCREEN TYPE 1: 112"x112"x20ga TS Horiz o/ 11 2"x11 2"x3 16" Horiz o/ Window or Exterior Wall (per plan).

15

SCREEN TYPE 1: 9

16"

Lam glass Panel w/ TS 2x4x1 4" supports.

16

EXTERIOR DOOR TYPE 1:

17

EXTERIOR DOOR TYPE 2:

Alum. Storefront Door w/ 7 16" Lam. Glass 1

18

2"

Temp Glass Door- Frameless/ Pivot hinges

EXTERIOR DOOR TYPE 3: Powder coated Alum. Multi-slide (Fleetwood) w/ 1" Dual Glass

19

EXTERIOR DOOR TYPE 4: 1-3/4" HM door and Frame

20

WINDOW TYPE 1: Alum. Storefront w/Dual pane, Low E glass, Temp per code.

21

WINDOW TYPE 2: Aluminum Sash and Frame w/ dual pane, low E glass. Tempered per code.

22

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

EXTERIOR TERRACE/ FLOOR TYPE 2: 3 4 Ipe wood decking o/ Excel-Coat Class 'A' 1-HR Fire Rated, Acrylic Deck Coating System as Mfgr by Excellent Coatings, Inc.(ICBO ER-4804) o/ wpg and structure.

24 25

SKYLIGHT:

Lane-Aire Manufacturing / LARR #02708

EXTERIOR GATE: Ipe wood o/ 2x2x1 4" Tube Steel structure.

26

FIREPLACE / VENT CHIMNEY:

27

GARAGE DOOR:

Spark Modern Fires; Direct-Vent Gas Fireplace Heaters w/ Simpson Dura-Vent Direct Vent Pro (3':ANSI Z21.88-2005/CSA2.33-2005 or 6':ANSI Z21.88a-2007/CSA2.33a-2007 per plan)

Sectional Overhead Door

1

INTERIOR NOTES 2

4

A

GARAGE FLOOR: Elastomeric Traffic coating o/Reinf. Conc. Slab,

3

B C

D E

INTERIOR FLOOR TYPE 1: Stone Tile o/ Reinforced Concrete Slab

INTERIOR FLOOR TYPE 2: 3 4" Hardwood Flooring o/ PW o/ 2x sleepers o/ Reinforced Concrete Slab

INTERIOR FLOOR TYPE 3: Carpet o/ Pad o/ Reinforced Concrete Slab

INTERIOR FLOOR TYPE 4: Resilent rubber tile o/ Reinf Conc. Slab

F

G

INTERIOR FLOOR TYPE 5: 1

1 1 2" Stone Tile o/ 1 2" Lt Wt Conc. o/ Acoust. Memb. o/ 1 8" PW. Glue/Nailed (Annular Ring) o/ FJ.

INTERIOR FLOOR TYPE 6: 3 " Hardwood Flooring o/ 3 " PW o/ 1x Sleepers o/ 11 " Lt Wt 4 4 2 Conc o/ Acoust. Memb. o/ 118" PW Glued/Nailed (Annular Ring) o/FJ

2 1

A7.1

H

CEILING TYPE 1: 5

J

A7.1

8"

Type 'X' Gyp. Bd. o/ framing

CEILING TYPE 2: 3

4"

Wood Panel o/ 5 8" Type 'X' Gyp. Bd. o/ framing

#

WALL TYPES SEE A0.2

K

INT. WALL FIN 1:

L

5

8"

Type 'X' Gyp. Bd.

INT. WALL FIN 2: Stone Veneer

M

INT. WALL FIN 3: Stone Tile

N

INT. WALL FIN 4: 3

P

4"

PW. Wood Panel (to match cabinets)

CABINETRY: Hardwood faces, Stone countertops

R

INTERIOR DOORS (SOLID)

S

INTERIOR DOORS (GLAZED)

1-3/4" Solid Core Hardwood Veneer

Aluminum Storefront w/ 5/16' lam translucent glass

STRUCTURAL S1

FOUNDATION: Cast in Place Reinforced Conc. Foundation (See Structural Drawings)

S2

RETAINING WALL: CMU wall, plaster where exposed. See Civil/Struct. Dwgs. for notes.

S3

STRUCTURAL WOOD FRAMING: See Structural

S4

STRUCTURAL STEEL FRAMING: See Structural

S5

CONCRETE SLAB ON GRADE: See Structural

S6

STRUCTURAL CONCRETE DECK: See Structural

MECHANICAL M1

HVAC SYSTEM OUTDOOR UNITS

M2

HVAC SYSTEM INDOOR UNITS

M3

DUCTS/ DISTRIBUTION DEVICES

P1

ROOF DRAIN/ OVERFLOW ROOF DRAIN

P2

AREA DRAIN

P3 PLUMBING PIPES ELECTRICAL E1

ELECT. SERVICE/ METER

E2

ELECT. PANEL

E3

LIGHTING/ DEVICES

Legal Description

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

EXTERIOR TERRACE/ FLOOR TYPE 1: Stone Tile o/ Structure

23

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT


101

AS | Construction Documents

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

EXTERIOR NOTES 1

EXTERIOR NOTES

ROOF TYPE 1:

1

Decorative Gravel (where occurs) o/ UL Class "A" Modified Bitumen Cap Sheet Roofing : Certain Teed "Flintlastic FR-P" ICC (ESR-1388). FRP-N-B3 (15 yr) o/ PW o/ 2x Rip strips w/ min 1/4":12" slope o/ PW o/ RR.

2

METAL PANEL OUTSIDE CORNER DETAIL

METAL PANEL GROUND DETAIL

2

3

WALL TYPES SEE A0.1, A0.2, A0.3

#

EXTERIOR WALL FINISH 1:

4

7/8" Exteror Portland Cement Plaster

6

8

5

EXTERIOR WALL FINISH 3:

6

22 ga Painted Sheet Metal Panel

EXTERIOR WALL FINISH 4:

7

10

8

9

10

TS 12

w/

11

12

13

14

15

" Lam glass Panel w/ TS 2x4x14" supports.

EXTERIOR DOOR TYPE 1: EXTERIOR DOOR TYPE 2:

" Lam glass Panel w/ TS 2x4x14" supports.

16

EXTERIOR DOOR TYPE 1:

17

EXTERIOR DOOR TYPE 2:

Alum. Storefront Door w/ 716" Lam. Glass

Alum. Storefront Door w/ 716" Lam. Glass 12

" Temp Glass Door- Frameless/ Pivot hinges

18

" Temp Glass Door- Frameless/ Pivot hinges

EXTERIOR DOOR TYPE 3:

18

Powder coated Alum. Multi-slide (Fleetwood) w/ 1" Dual Glass

20

19

WINDOW TYPE 1:

20

SKYLIGHT:

Lane-Aire Manufacturing / LARR #02708

EXTERIOR GATE: Ipe wood o/ 2x2x14" Tube Steel structure.

26

FIREPLACE / VENT CHIMNEY:

27

GARAGE DOOR:

Spark Modern Fires; Direct-Vent Gas Fireplace Heaters w/ Simpson Dura-Vent Direct Vent Pro (3':ANSI Z21.88-2005/CSA2.33-2005 or 6':ANSI Z21.88a-2007/CSA2.33a-2007 per plan)

Sectional Overhead Door

INTERIOR NOTES A

GARAGE FLOOR: Elastomeric Traffic coating o/Reinf. Conc. Slab,

B C

D E

INTERIOR FLOOR TYPE 1: Stone Tile o/ Reinforced Concrete Slab

INTERIOR FLOOR TYPE 2: 3 4" Hardwood Flooring o/ PW o/ 2x sleepers o/ Reinforced Concrete Slab

INTERIOR FLOOR TYPE 3: Carpet o/ Pad o/ Reinforced Concrete Slab

INTERIOR FLOOR TYPE 4: Resilent rubber tile o/ Reinf Conc. Slab

F

G

INTERIOR FLOOR TYPE 5: 12"

Stone Tile o/ 112" Lt Wt Conc. o/ Acoust. Memb. o/ 118" PW. Glue/Nailed (Annular Ring) o/ FJ.

INTERIOR FLOOR TYPE 6: 3 " Hardwood Flooring o/ 3 " PW o/ 1x Sleepers o/ 112" Lt Wt 4 4 Conc o/ Acoust. Memb. o/ 118" PW Glued/Nailed (Annular Ring) o/FJ

H

8"

4"

FIREPLACE / VENT CHIMNEY:

27

GARAGE DOOR:

Spark Modern Fires; Direct-Vent Gas Fireplace Heaters w/ Simpson Dura-Vent Direct Vent Pro (3':ANSI Z21.88-2005/CSA2.33-2005 or 6':ANSI Z21.88a-2007/CSA2.33a-2007 per plan)

Sectional Overhead Door

INTERIOR NOTES A

WINDOW DETAIL

C

CONNECTION DETAIL

D E

G

L

R

N

P

INTERIOR DOORS (SOLID)

R

S

S3

STRUCTURAL WOOD FRAMING:

S4 S5 S6

M1

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

M2

HVAC SYSTEM INDOOR UNITS

M3

DUCTS/ DISTRIBUTION DEVICES

ROOF DRAIN/ OVERFLOW ROOF DRAIN

P1

ROOF DRAIN/ OVERFLOW ROOF DRAIN

AREA DRAIN

P2

AREA DRAIN

D. Section 06 1000 - Rough Carpentry: Water-resistive barrier under wall panels. E. Section 07 2100 - Thermal Insulation. F. Section 07 2500 - Weather Barriers: Weather barrier under wall panels. G. Section 07 9005 - Joint Sealers. H. Section 09 2116 - Gypsum Board Assemblies: Wall panel substrate.

A. ASTM A 276 - Standard Specification for Stainless Steel Bars and Shapes; 2006. B. ASTM B 209 - Standard Specification for Aluminum and Aluminum-Alloy Sheet and Plate; 2007. C. ASTM A 240 - Standard Specification for Stainless Steel Sheet and Plate; 2007.

A. Do not install products that are defective, including warped, bowed, dented, and broken members, and members with damaged finishes.

1.07

WARRANTY

E. Installer's Qualifications: Include a minimum of three (3) projects with similar types of exterior wall panels, with facility contact information. F. Certificate: Certify that the work results of this section meet or exceed specified requirements. G. Manufacturer's installation instructions. H. Manufacturer's Field Reports: Provide within 48 hours of field review. State what was observed and what changes, if any, were requested or required. I. Maintenance Data: Care of finishes and warranty requirements. J. Executed Warranty: Submit warranty and ensure that forms have been completed in CRL's name and registered with manufacturer.

C. Fasten panels to structural supports; aligned, level, and plumb. E. Do not rout, bend, or otherwise form panels in field unless required by wall system manufacturer and approved by the ; comply with metal panel manufacturer's instructions and recommendations for field forming.

G. Provide expansion joints where indicated.

A. See Section 01 7800 - Closeout Submittals, for additional warranty requirements.

H. Where joints are designed for field applied sealant, seal joints completely with specified sealant.

B. See manufacturer for additional information on extended warranty periods for high performance coatings for aluminum wall panels.

I. Install square, plumb, straight, and true, accurately fitted, with tight joints and intersections maintaining the following installation tolerances: 1. Variation From Plane or Location: 1/2 inch in 30 feet (10 mm in 10 m) of length and up to 3/4 inch in 300 feet (20 mm in 100 m), maximum. 2. Deviation of horizontal and vertical alignment of installed metal panels: 0.25 inch in 20 feet (6.4 mm in 6.1 m), noncumulative. 3. Offset From True Alignment Between Two Adjacent Members Abutting End To End, In Line: 0.03 inch (0.75 mm), maximum.

PART 2 PRODUCTS 2.01 MANUFACTURERS A. C.R. Laurence Co,, Inc., P.O. Box 58923, Los Angeles, CA 90058-0923; Tel: (800) 421-6144 or (323) 588-1281 Ext. 7770; Fax: (866) 921-0532 or (323) 584-5226; Email: archmetals@crlaurence.com. B. Substitutions: No substitutions are permitted. 2.02 MANUFACTURED METAL PANELS

C. Exterior Panel: Stainless steel 1. 16 ga [ 11 ga] thick cold rolled stainless steel sheet; ASTM A240, type 304 [ 316]. 2. Panel size: 4 ft by 12 ft maximum. 3. Exterior finish: a. EWS100CBS - HAIRLINE STAINLESS FINISH b. EWS100CPS - POLISHED #8 STAINLESS FINISH c. EWS100CNDS - NON-DIRECTIONAL STAINLESS FINISH 4. Interlocking edges, fitted with continuous gaskets. D. Liner Panel: 1. Color: As selected from panel manufacturer's standard colors.

J. Replace damaged products. 3.04 INSTALLATION A. Install panels on walls and soffits in accordance with manufacturer's instructions. B. Protect surfaces in contact with cementitious materials and dissimilar metals with bituminous paint. Allow to dry prior to installation. C. Fasten panels to structural supports; aligned, level, and plumb. D. Locate joints over supports. Lap panel ends minimum 2 inches (50 mm). E. Provide expansion joints where indicated. F. Use concealed fasteners unless otherwise approved by manufactuer . G. Seal and place gaskets to prevent weather penetration. Maintain neat appearance. 3.05 TOLERANCES A. Maximum Offset From True Alignment Between Adjacent Members Butting or In Line: 1/16 inch (1.6 mm). B. Maximum Variation from Plane or Location Indicated on Drawings: 1/8 inch (3 mm). 3.06 CLEANING A. Remove site cuttings from finish surfaces. B. Clean and wash prefinished surfaces with mild soap and water; rinse with clean water. C. Clean aluminum surfaces in accordance with recommendations found in AAMA 609 and 610. Do not use agressive alkaline, TSP, acid cleaners, or abrasive cleaners on aluminum surfaces. D. Clean stainless steel surfaces with non-abrasive detergents, soap, ammonia and warm water; rinse with clean water. END OF SECTION

Legal Description

Legal Description

1

E. Stiffeners: Fabricated from same material as panels.

Legal Description

2

F. Internal and External Corners: Same material, thickness, and finish as exterior sheets; ________ profile to suit system; shop cut and factory mitered, and welded to required angles. Mitered internal corners to be back braced with ____ gage (____ mm thick) precoated sheet stock to maintain continuity of profile.

3 4 5

G. Expansion Joints: Same material, thickness and finish as exterior sheets; ____ gage (____ mm thick); manufacturer's standard brake formed type, of profile to suit system.

7 8

H. Trim and Closure Pieces: Same material, thickness and finish as exterior sheets; brake formed to required profiles. I. Anchors: Aluminum or Stainless steel. J. 2.03 MATERIALS A. Precoated Aluminum Sheet: ASTM B 209, 5052-H32____ ____ smooth surface texture; continuous-coil-coated on exposed surfaces with specified finish coating and on panel back with specified panel back coating. B. Interior Finish Coating: Panel manufacturer's standard polyester top coat, over recommended primer.

MECAHANICAL NOTES

C. Metal Framing Members: Include zee-clips, base and sill angles and channels, hat-shaped and rigid channels, and furring channels required for complete installation. 1. Aluminum extrusions: ASTM B 221, 6063-T6 alloy, with mill finish. Z-clips, stiffeners and angles as recommended by manufacturer. 2. Provide material strength, dimensions, configuration as required to meet the applied loads applied and in compliance with applicable building code. 3. Stainless Steel Sheet Components: ASTM A 480/A 480M.

HVAC EQUIPMENT- SEE MECHANICAL HVAC EQUIPMENT ABOVE- SEE MECHANICAL HOOD- SEE MECHANICAL REFRIGERATOR- SEE MECHANICAL HVAC FOR WINE STORAGE- SEE MECHANICAL

Specifier's note: Article below to include qualifications, prerequesites, standards, limitations, and criteria to establish the requirements for the level of quality for products and workmanship for the work of this section. Coordinate Article with Division 1 Quality Assurance Section. 1.05 QUALITY ASSURANCE A. Field Measurements: Verify actual dimensions by field measurement before fabrication; show recorded measurements on shop drawings. B. Wall System Manufacturer Qualifications: Company specializing in manufacturing products specified in this section. 1. Approved by MCM sheet manufacturer.

2.04 ACCESSORIES ELEVATOR EQUIPMENT- SEE MECHANICAL

A. Gaskets: Manufacturer's standard type suitable for use with system, permanently resilient; ultraviolet and ozone resistant.

WASHER / DRYER- SEE MECHANICAL

B. Sealants: Specified in Section 07 9005. Manufacturer's standard type suitable for use with installation of system; non-staining; color as selected.

JACUZZI EQUIPMENT- SEE MECHANICAL

C. Fasteners: Manufacturer's standard type to suit application; with soft neoprene washers, stainless steel. Fastener cap same color as exterior panel.

NOTES FOR RCP

2.05 FABRICATION

EXTERIOR NOTES

A. Form sections true to shape, accurate in size, square, and free from distortion or defects.

7

SOFFIT TYPE 1: 7/8" Exterior Plaster o/ framing

8

SOFFIT TYPE 2: 3/4" Wood Paneling o/ 15# paper o/ 1/2" Type 'X' Gyp. Bd. o/ framing

C. Stiffeners are fabricated from same material as panel.

INTERIOR NOTES

E. Return seams on panels are bent using press brake machine.

H

F. Curve forming of panels is by plate roller.

J

CEILING TYPE 1: 5

8"

Type 'X' Gyp. Bd. o/ framing

CEILING TYPE 2: 3

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

D. Design Engineer's Qualifications: When required by building authority having jurisdiction, Design structural supports and anchorages under direct supervision of a Structural Engineer experienced in design of this type of Work and licensed in [insert job specific state, or location].

B. Form pieces in longest practicable lengths. D. Panels are cut by laser cutting method for panel size 10 ft or less in length. Waterjet cutting method is used for panel size greater than 10 ft in length.

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

C. Installer Qualifications: Experienced in performing work of the type specified in this section. 1. With minimum 3 years of documented experience in installation of metal wall wall panel system similar to the work of this section. 2. Approved by wall system manufacturer.

4"

Wood Panel o/

5

8"

Type 'X' Gyp. Bd. o/ framing

*

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

D. Samples: Submit _______ selection and verification samples of wall panel, ____ inch (____ mm) by ____ inch (____ mm) in size illustrating finish color, sheen, and texture. 1. Selection samples: Manufacturer's color charts or chips illustrating full range of colors, finishes and textures available with factory-applied finishes. 2. Verification samples: a. Structural: 24 inch by 24 inch sample wall panel assembly, including intersection of 4 wall panels, in thickness specified, including Z-clips, stiffeners, substrate supports, and sealant for assembly approval. b. Include separate samples with factory applied finish on 6 inch by 6 inch of each color and finish selected for project.

A. Protect adjacent work areas and finish surfaces from damage during installation.

B. Comply with instructions and recommendations of metal panel manufacturer and wall system manufacturer, as well as with approved shop drawings.

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

A. Wall System Manufacturer Qualifications.

C. Shop Drawings: Show layout and elevations, dimensions and thickness of panels, finishes and textures, connections, details and location of joints, sealants and gaskets, method of anchorage, number of anchors, supports, reinforcement, trim, flashings, and accessories. 1. Indicate panel numbering system. 2. Differentiate between shop and field fabrication. 3. Indicate substrates and adjacent work with which the wall system must be coordinated.

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

3.02 PREPARATION

F. Separate dissimilar metals; use gasket fasteners, isolation shims, or isolation tape where needed to eliminate possibility of electrolytic action between metals.

A. Wall Panel System: EWS 100 Series Standard Economy Wet Seal Metal Panel System; preformed and prefinished metal panel system of horizontal ________ profile; site assembled; with subgirt framing assembly.

B. Product Data: Wall Panel manufacturer's data sheets on each product to be used, including thickness, physical characteristics, and finish, and: 1. Finish manufacturer's data sheet showing physical and performance characteristics. 2. Storage and handling requirements and recommendations. 3. Fabrication instructions and recommendations. 4. Specimen warranty for finish, as specified herein.

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

B. Store products protected from exposure to harmful weather conditions and at temperature conditions recommended by manufacturer.

B. Exterior panel: Aluminum 1. 1/8 inch ( ) thick, ASTM B209, 5052-H32 alloy. 2. Panel size: 4 ft by 12 ft maximum 3. Exterior finish: a. EWS100CSA - Satin anodized. b. EWS100CDU - Dark bronze anodized. c. EWS100CKN - High Performance PVDF coating. Duranar contains 70% Kynar 500 or Hylar 5000 fluoropolymer resin; exceeds the performance requirements of AAMA 2605. d. EWS100CNL - High performance powder coating. Spraylat Newlar thermosetting powder coating; exceeds the performance requirements of AAMA 2605. Corrosion protection: Meets 4000 hr. salt spray when tested in accordance with ASTM B117. e. EWS100CPT - Powder coated aluminum.

1.04 SUBMITTALS

ELECT. PANEL LIGHTING/ DEVICES

A. Verify dimensions, tolerances, and interfaces with other work are acceptable for metal wall panel installation.

D. Use concealed fasteners unless otherwise approved by manufactuer .

E. ASTM A 666 - Standard Specification for Annealed or Cold-Worked Austenitic Stainless Steel Sheet, Strip, Plate, and Flat Bar; 2003.

G. ASTM E 84 - Standard Test Method for Surface Burning Characteristics of Building Materials; 2008.

E2 E3

C. Notify in writing of conditions detrimental to proper and timely completion of work. Do not proceed with erection until unsatisfactory conditions have been corrected.

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

D. ASTM A 480 - Standard Specification for General Requirements for Flat-Rolled Stainless and Heat-Resisting Steel Plate, Sheet, and Strip; 2006b.

ELECT. PANEL LIGHTING/ DEVICES

B. Verify substrate on-site to determine that conditions are acceptable for product installation in accordance with manufacturers written instructions.

A. Deliver products in manufacturer's original, unopened, undamaged containers with identification labels intact. 1. Protect finishes by applying heavy duty removable plastic film during production. 2. Package for protection against transportation damage. 3. Provide markings to identify components consistently with drawings. 4. Exercise care in unloading, storing and installing panels to prevent bending, warping, twisting and surface damage.

F. ASTM B 221 - Standard Specification for Aluminum and Aluminum-Alloy Extruded Bars, Rods, Wire, Profiles, and Tubes; 2006.

SPECIFIER'S NOTE: ARTICLE BELOW INCLUDES SUBMITTAL OF RELEVANT DATA TO BE FURNISHED BY CONTRACTOR BEFORE, DURING AND AFTER CONSTRUCTION. COORDINATE THIS ARTICLE WITH ARCHITECT'S AND CONTRACTOR'S DUTIES AND RESPONSIBILITIES IN CONDITIONS OF THE CONTRACT AND DIVISION 1 SUBMITTAL PROCEDURES SECTION.

ELECT. SERVICE/ METER

E2 E3

3.03 INSTALLATION

1.06 DELIVERY, STORAGE, AND HANDLING

I. Section 09 2116 - Gypsum Board Assemblies: Water-resistive barrier under wall panels. 1.03 REFERENCE STANDARDS

E1

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

C. Section 06 1000 - Rough Carpentry: Wall panel substrate.

P3 PLUMBING PIPES ELECTRICAL

ELECT. SERVICE/ METER

3.01 EXAMINATION

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

B. Section 05 4000 - Cold-Formed Metal Framing: Water-resistive barrier under wall panels.

HVAC SYSTEM OUTDOOR UNITS

HVAC SYSTEM INDOOR UNITS DUCTS/ DISTRIBUTION DEVICES

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

A. Section 05 4000 - Cold-Formed Metal Framing: Wall panel substrate.

STRUCTURAL CONCRETE DECK: See Structural

MECHANICAL

HVAC SYSTEM OUTDOOR UNITS

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

A. Manufactured metal panels for walls and soffits, with related flashings, and accessory components. 1.02 RELATED REQUIREMENTS

CONCRETE SLAB ON GRADE: See Structural

STRUCTURAL CONCRETE DECK:

PART 3 EXECUTION Specifier's note: Retain paragraph below if mock-up assemblies; erected either on-site, or off-site, are required. Mock-ups can be used to establish standards of quality for workmanship, review of construction sequence/operation, and coordination of work of related sections. Coordinate with Division 1 Quality Control Section; Mock-up requirements. E. Mock-Up: Provide a mock-up for evaluation of fabrication workmanship. 1. Locate on project site at an off-ste location]. 2. Provide panels finished as specified. 3. Mock-up may remain as part of the Work.

PART 1 GENERAL 1.01 SECTION INCLUDES

STRUCTURAL WOOD FRAMING: STRUCTURAL STEEL FRAMING: See Structural

CONCRETE SLAB ON GRADE:

P2

E1

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

RETAINING WALL:

P1

M2 M3

P3 PLUMBING PIPES ELECTRICAL

07 4213 - 1 METAL WALL PANELS

PW. Wood Panel (to match cabinets)

INTERIOR DOORS (SOLID) INTERIOR DOORS (GLAZED)

FOUNDATION:

See Structural

STRUCTURAL STEEL FRAMING:

See Structural

USE THIS SECTION WHEN SPECIFYING C.R. LAURENCE EWS SERIES 100 STANDARD WET SEAL WALL PANEL SYSTEM.

Wood Panel o/ 5 8" Type 'X' Gyp. Bd. o/ framing

Type 'X' Gyp. Bd.

CMU wall, plaster where exposed. See Civil/Struct. Dwgs. for notes.

See Structural

THIS SPECIFICATION SECTION IS A MANUFACTURER SPECIFIC PRODUCT SPECIFICATION USING THE PROPRIETARY METHOD OF SPECIFYING APPLICABLE TO PROJECT SPECIFICATIONS AND MASTER GUIDE SPECIFICATIONS. OPTIONAL TEXT IS INDICATED BY [ ]; DELETE OPTIONAL TEXT IN FINAL COPY OF SPECIFICATION SECTION. SECTION INCLUDES INTERIOR AND EXTERIOR WALL PANELS FORMED USING ALUMINUM SHEET. WALL PANELS FABRICATED FROM STAINLESS STEEL, AND COPPER, AND OTHER BRASS METALS ARE ALSO AVAILABLE.

4"

Cast in Place Reinforced Conc. Foundation (See Structural Drawings) S2

MECHANICAL

080108 / CRL

Type 'X' Gyp. Bd. o/ framing

INT. WALL FIN 4:

Aluminum Storefront w/ 5/16' lam translucent glass

S1

RETAINING WALL:

See Structural

S6

8"

INT. WALL FIN 2: INT. WALL FIN 3:

CABINETRY:

STRUCTURAL

FOUNDATION:

See Structural S4

4"

INT. WALL FIN 1:

1-3/4" Solid Core Hardwood Veneer

INTERIOR DOORS (GLAZED) Aluminum Storefront w/ 5/16' lam translucent glass

S3

8"

WALL TYPES SEE A0.2

Hardwood faces, Stone countertops

CMU wall, plaster where exposed. See Civil/Struct. Dwgs. for notes.

S5

CEILING TYPE 1: CEILING TYPE 2:

3

PW. Wood Panel (to match cabinets)

CABINETRY:

Cast in Place Reinforced Conc. Foundation (See Structural Drawings)

M1

INTERIOR FLOOR TYPE 6:

5

Stone Tile

1-3/4" Solid Core Hardwood Veneer S

INTERIOR FLOOR TYPE 5:

Stone Veneer

STRUCTURAL

S2

INTERIOR FLOOR TYPE 4:

Stone Tile o/ 112" Lt Wt Conc. o/ Acoust. Memb. o/ 118" PW. Glue/Nailed (Annular Ring) o/ FJ.

3

# K

M

Hardwood faces, Stone countertops

S1

INTERIOR FLOOR TYPE 3: Carpet o/ Pad o/ Reinforced Concrete Slab

5

J

Wood Panel o/ 5 8" Type 'X' Gyp. Bd. o/ framing

Type 'X' Gyp. Bd.

INT. WALL FIN 4: 4"

INTERIOR FLOOR TYPE 2: 3 4" Hardwood Flooring o/ PW o/ 2x sleepers o/ Reinforced Concrete Slab

12"

3 " Hardwood Flooring o/ 3 " PW o/ 1x Sleepers o/ 112" Lt Wt 4 4 Conc o/ Acoust. Memb. o/ 118" PW Glued/Nailed (Annular Ring) o/FJ

H

Type 'X' Gyp. Bd. o/ framing

INT. WALL FIN 2: INT. WALL FIN 3:

3

P

INTERIOR FLOOR TYPE 1: Stone Tile o/ Reinforced Concrete Slab

Resilent rubber tile o/ Reinf Conc. Slab F

Stone Tile N

GARAGE FLOOR: Elastomeric Traffic coating o/Reinf. Conc. Slab,

B

METAL PANEL WATERPROOFING

INT. WALL FIN 1: 8"

EXTERIOR GATE: Ipe wood o/ 2x2x14" Tube Steel structure.

WALL TYPES SEE A0.2 5

SKYLIGHT:

Lane-Aire Manufacturing / LARR #02708

26

Stone Veneer M

Legal Description

EXTERIOR TERRACE/ FLOOR TYPE 2: 3 4 Ipe wood decking o/ Excel-Coat Class 'A' 1-HR Fire Rated, Acrylic Deck Coating System as Mfgr by Excellent Coatings, Inc.(ICBO ER-4804) o/ wpg and structure.

24 25

CEILING TYPE 2: 3

L

1. Glazing in the following locations shall be safety glazing conforming to the human impact loads of Section R3008.3 and R308.4. A. Fixed and operable panels and swinging, sliding and bifold door assemblies B. Glazing in an individual fixed or operable panel adjacent to a door where the nearest vertical edge is with in 24 inch arch of the door in a closed position and whose bottom edge is less then 60 inches above the floor or walking surface C. Glazing in an individual fixed or operable panel that meets all of the following conditions: − Exposed area of an individual pane greater than nine square feet − Exposed bottom edge is less than 18 inches above the finished floor − Exposed top edge is greater than 36 inches above the finished floor − Where a walking surface is within 36 inches horizontally of the glazing D. Glazing in railings E. Glazing in enclosures for or walls facing hot tubs, whirlpools, saunas, steam rooms, bathtubs and showers where the bottom edge or the glazing is less than 60 inches measured vertically above any standing or walking surface F. Glazing adjacent to stairways, landings and ramps within 36 inches horizontally of a walking surface when the surface of the glazing is less than 60 inches above the plane of the adjacent walking surface. 2. Skylights and sloped glazing shall comply with section R308.6

EXTERIOR TERRACE/ FLOOR TYPE 1: Stone Tile o/ Structure

23

CEILING TYPE 1: 5

J

# K

Aluminum Sash and Frame w/ dual pane, low E glass. Tempered per code. 22

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

Legal Description

EXTERIOR TERRACE/ FLOOR TYPE 2: 3 4 Ipe wood decking o/ Excel-Coat Class 'A' 1-HR Fire Rated, Acrylic Deck Coating System as Mfgr by Excellent Coatings, Inc.(ICBO ER-4804) o/ wpg and structure.

24 25

WINDOW TYPE 2:

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

21

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

EXTERIOR TERRACE/ FLOOR TYPE 1: Stone Tile o/ Structure

1

WINDOW TYPE 1: Alum. Storefront w/Dual pane, Low E glass, Temp per code.

WINDOW TYPE 2: Aluminum Sash and Frame w/ dual pane, low E glass. Tempered per code.

22 23

A7.1

EXTERIOR DOOR TYPE 4: 1-3/4" HM door and Frame

Alum. Storefront w/Dual pane, Low E glass, Temp per code.

Legal Description

EXTERIOR DOOR TYPE 3: Powder coated Alum. Multi-slide (Fleetwood) w/ 1" Dual Glass

EXTERIOR DOOR TYPE 4: 1-3/4" HM door and Frame

21

SCREEN TYPE 1: 916

12

19

SCREEN TYPE 1: 112"x112"x20ga TS Horiz o/ 112"x112"x316" Horiz o/ Window or Exterior Wall (per plan).

SCREEN TYPE 1: 916

16

GUARDRAIL TYPE 3: 112"x112"x20ga TS Horiz o/ 112"x112"x316" Horiz @ 42" min Ht.

SCREEN TYPE 1: 112"x112"x20ga TS Horiz o/ 112"x112"x316" Horiz o/ Window or Exterior Wall (per plan).

17

GUARDRAIL TYPE 2: Crane Veyor Corporation, LARR #25784 Temp Structural Glass w/ cont. Steel top rail. Min 42" Ht.

12"

GUARDRAIL TYPE 3: 112"x112"x20ga TS Horiz o/ 112"x112"x316" Horiz @ 42" min Ht.

15

FACIA/CLADDING/GUTTERS TYPE 1: FACIA/CLADDING/GUTTERS TYPE 2:

GUARDRAIL TYPE 1: TS 2x4x14"Verts w/ 916"Lam. Glass Infill. 42" Min. Ht.

Glass Infill. 42" Min. Ht.

GUARDRAIL TYPE 2: Crane Veyor Corporation, LARR #25784 Temp Structural Glass w/ cont. Steel top rail. Min 42" Ht.

12"

13

14

EXTERIOR WALL FINISH 3: EXTERIOR WALL FINISH 4:

EXPOSED STRUCTURAL STEEL COLUMNS: Structural Steel columns in cluster of 3 at varying sizes. Painted. See structural dwgs.

GUARDRAIL TYPE 1: 916"Lam.

22 ga Painted Sheet Metal Panel

22 ga Galvanized Sheet Metal

EXPOSED STRUCTURAL STEEL COLUMNS:

2x4x14"Verts

EXTERIOR WALL FINISH 2:

22 ga Painted Sheet Metal Panels

FACIA/CLADDING/GUTTERS TYPE 2:

Structural Steel columns in cluster of 3 at varying sizes. Painted. See structural dwgs. 11

1

EXTERIOR WALL FINISH 1:

1" Stone Veneer

22 ga Galvanized Sheet Metal

FACIA/CLADDING/GUTTERS TYPE 1: 22 ga Painted Sheet Metal Panels

22 ga Galvanized Sheet Metal

A7.1

WALL TYPES SEE A0.1, A0.2, A0.3 7/8" Exteror Portland Cement Plaster

EXTERIOR WALL FINISH 2: 1" Stone Veneer

22 ga Galvanized Sheet Metal

9

SOFFIT TYPE 2: 3/4" Wood Panel (VGDF) o/ 15# paper o/ 5/8" Fire rated exterior gyp bd o/ framing

# 4

7

SOFFIT TYPE 1: 7/8" Exterior Plaster o/ framing

SOFFIT TYPE 2: 3/4" Wood Panel (VGDF) o/ 15# paper o/ 5/8" Fire rated exterior gyp bd o/ framing

5

ROOF TYPE 1: Decorative Gravel (where occurs) o/ UL Class "A" Modified Bitumen Cap Sheet Roofing : Certain Teed "Flintlastic FR-P" ICC (ESR-1388). FRP-N-B3 (15 yr) o/ PW o/ 2x Rip strips w/ min 1/4":12" slope o/ PW o/ RR.

METAL PANEL INSIDE CORNER DETAIL

SOFFIT TYPE 1: 7/8" Exterior Plaster o/ framing

3


102

AS | Construction Documents PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

EXTERIOR NOTES 1

ROOF TYPE 1: Decorative Gravel (where occurs) o/ UL Class "A" Modified Bitumen Cap Sheet Roofing : Certain Teed "Flintlastic FR-P" ICC (ESR-1388). FRP-N-B3 (15 yr) o/ PW o/ 2x Rip strips w/ min 1/4":12" slope o/ PW o/ RR.

2

SOFFIT TYPE 1: 7/8" Exterior Plaster o/ framing

3

SOFFIT TYPE 2: 3/4" Wood Panel (VGDF) o/ 15# paper o/ 5/8" Fire rated exterior gyp bd o/ framing

# 4

WALL TYPES SEE A0.1, A0.2, A0.3 EXTERIOR WALL FINISH 1: 7/8" Exteror Portland Cement Plaster

5

6 7

EXTERIOR WALL FINISH 2: 1" Stone Veneer

EXTERIOR WALL FINISH 3: 22 ga Painted Sheet Metal Panel

EXTERIOR WALL FINISH 4: 22 ga Galvanized Sheet Metal

8

FACIA/CLADDING/GUTTERS TYPE 1: 22 ga Painted Sheet Metal Panels

9

FACIA/CLADDING/GUTTERS TYPE 2: 22 ga Galvanized Sheet Metal

10

EXPOSED STRUCTURAL STEEL COLUMNS: Structural Steel columns in cluster of 3 at varying sizes. Painted. See structural dwgs.

11

GUARDRAIL TYPE 1: TS 2x4x1 4"Verts w/ 9 16"Lam. Glass Infill. 42" Min. Ht.

12

GUARDRAIL TYPE 2: Crane Veyor Corporation, LARR #25784 2" Temp Structural Glass w/ cont. Steel top rail. Min 42" Ht.

1

13

GUARDRAIL TYPE 3: 112"x112"x20ga TS Horiz o/ 112"x112"x3 16" Horiz @ 42" min Ht.

14

SCREEN TYPE 1: 112"x112"x20ga TS Horiz o/ 11 2"x11 2"x3 16" Horiz o/ Window or Exterior Wall (per plan).

15

1

SCREEN TYPE 1: 9

A7.1

16"

Lam glass Panel w/ TS 2x4x1 4" supports.

16

EXTERIOR DOOR TYPE 1:

17

EXTERIOR DOOR TYPE 2:

Alum. Storefront Door w/ 7 16" Lam. Glass 1

15 18

2"

Temp Glass Door- Frameless/ Pivot hinges

EXTERIOR DOOR TYPE 3: Powder coated Alum. Multi-slide (Fleetwood) w/ 1" Dual Glass

16 19

1-3/4" HM door and Frame

17 20

WINDOW TYPE 1: Alum. Storefront w/Dual pane, Low E glass, Temp per code.

18 21

WINDOW TYPE 2: Aluminum Sash and Frame w/ dual pane, low E glass. Tempered per code.

19 22 20

EXTERIOR TERRACE/ FLOOR TYPE 1: Stone Tile o/ Structure

23

EXTERIOR TERRACE/ FLOOR TYPE 2: 3 4 Ipe wood decking o/ Excel-Coat Class 'A' 1-HR Fire Rated, Acrylic Deck Coating System as Mfgr by Excellent Coatings, Inc.(ICBO ER-4804) o/ wpg and structure.

21

22

24

23

25

SKYLIGHT:

Lane-Aire Manufacturing / LARR #02708

EXTERIOR GATE: Ipe wood o/ 2x2x1 4" Tube Steel structure.

26

FIREPLACE / VENT CHIMNEY:

27

GARAGE DOOR:

Spark Modern Fires; Direct-Vent Gas Fireplace Heaters w/ Simpson Dura-Vent Direct Vent Pro (3':ANSI Z21.88-2005/CSA2.33-2005 or 6':ANSI Z21.88a-2007/CSA2.33a-2007 per plan)

Sectional Overhead Door

INTERIOR NOTES A

GARAGE FLOOR: Elastomeric Traffic coating o/Reinf. Conc. Slab,

B C

D E

INTERIOR FLOOR TYPE 1: Stone Tile o/ Reinforced Concrete Slab

INTERIOR FLOOR TYPE 2: 3 4" Hardwood Flooring o/ PW o/ 2x sleepers o/ Reinforced Concrete Slab

INTERIOR FLOOR TYPE 3: Carpet o/ Pad o/ Reinforced Concrete Slab

INTERIOR FLOOR TYPE 4: Resilent rubber tile o/ Reinf Conc. Slab

F

G

INTERIOR FLOOR TYPE 5: 1

1 1 2" Stone Tile o/ 1 2" Lt Wt Conc. o/ Acoust. Memb. o/ 1 8" PW. Glue/Nailed (Annular Ring) o/ FJ.

INTERIOR FLOOR TYPE 6: 3 " Hardwood Flooring o/ 3 " PW o/ 1x Sleepers o/ 11 " Lt Wt 4 4 2 Conc o/ Acoust. Memb. o/ 118" PW Glued/Nailed (Annular Ring) o/FJ

H

CEILING TYPE 1: 5

J

8"

Type 'X' Gyp. Bd. o/ framing

CEILING TYPE 2: 3

4"

Wood Panel o/ 5 8" Type 'X' Gyp. Bd. o/ framing

#

WALL TYPES SEE A0.2

K

INT. WALL FIN 1:

L

5

8"

Type 'X' Gyp. Bd.

INT. WALL FIN 2: Stone Veneer

M

INT. WALL FIN 3: Stone Tile

N

INT. WALL FIN 4: 3

P

4"

PW. Wood Panel (to match cabinets)

CABINETRY: Hardwood faces, Stone countertops

R

INTERIOR DOORS (SOLID)

S

INTERIOR DOORS (GLAZED)

1-3/4" Solid Core Hardwood Veneer

Aluminum Storefront w/ 5/16' lam translucent glass

STRUCTURAL S1

FOUNDATION: Cast in Place Reinforced Conc. Foundation (See Structural Drawings)

S2

RETAINING WALL: CMU wall, plaster where exposed. See Civil/Struct. Dwgs. for notes.

S3

STRUCTURAL WOOD FRAMING: See Structural

S4

STRUCTURAL STEEL FRAMING: See Structural

S5

CONCRETE SLAB ON GRADE: See Structural

S6

STRUCTURAL CONCRETE DECK: See Structural

MECHANICAL M1

HVAC SYSTEM OUTDOOR UNITS

M2

HVAC SYSTEM INDOOR UNITS

M3

DUCTS/ DISTRIBUTION DEVICES

P1

ROOF DRAIN/ OVERFLOW ROOF DRAIN

P2

AREA DRAIN

P3 PLUMBING PIPES ELECTRICAL E1

ELECT. SERVICE/ METER

E2

ELECT. PANEL

E3

LIGHTING/ DEVICES

Legal Description

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

EXTERIOR DOOR TYPE 4:


AS | Construction Documents

103

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

EXTERIOR NOTES 1

ROOF TYPE 1: Decorative Gravel (where occurs) o/ UL Class "A" Modified Bitumen Cap Sheet Roofing : Certain Teed "Flintlastic FR-P" ICC (ESR-1388). FRP-N-B3 (15 yr) o/ PW o/ 2x Rip strips w/ min 1/4":12" slope o/ PW o/ RR.

2

SOFFIT TYPE 1: 7/8" Exterior Plaster o/ framing

3

SOFFIT TYPE 2: 3/4" Wood Panel (VGDF) o/ 15# paper o/ 5/8" Fire rated exterior gyp bd o/ framing

# 4

WALL TYPES SEE A0.1, A0.2, A0.3 EXTERIOR WALL FINISH 1: 7/8" Exteror Portland Cement Plaster

5

6 7

EXTERIOR WALL FINISH 2: 1" Stone Veneer

EXTERIOR WALL FINISH 3: 22 ga Painted Sheet Metal Panel

EXTERIOR WALL FINISH 4: 22 ga Galvanized Sheet Metal

8

FACIA/CLADDING/GUTTERS TYPE 1: 22 ga Painted Sheet Metal Panels

9

FACIA/CLADDING/GUTTERS TYPE 2:

10

EXPOSED STRUCTURAL STEEL COLUMNS:

22 ga Galvanized Sheet Metal

Structural Steel columns in cluster of 3 at varying sizes. Painted. See structural dwgs. 11

GUARDRAIL TYPE 1: TS 2x4x1 4"Verts w/ 9 16"Lam. Glass Infill. 42" Min. Ht.

1 A7.1

12

GUARDRAIL TYPE 2: Crane Veyor Corporation, LARR #25784 2" Temp Structural Glass w/ cont. Steel top rail. Min 42" Ht.

1

13

GUARDRAIL TYPE 3: 112"x112"x20ga TS Horiz o/ 112"x112"x3 16" Horiz @ 42" min Ht.

14

SCREEN TYPE 1: 112"x112"x20ga TS Horiz o/ 11 2"x11 2"x3 16" Horiz o/ Window or Exterior Wall (per plan).

15

SCREEN TYPE 1: 9

16

16"

Lam glass Panel w/ TS 2x4x1 4" supports.

EXTERIOR DOOR TYPE 1: Alum. Storefront Door w/ 7 16" Lam. Glass

17

EXTERIOR DOOR TYPE 2: 1

18

2"

Temp Glass Door- Frameless/ Pivot hinges

EXTERIOR DOOR TYPE 3: Powder coated Alum. Multi-slide (Fleetwood) w/ 1" Dual Glass

19

EXTERIOR DOOR TYPE 4: 1-3/4" HM door and Frame

20

WINDOW TYPE 1: Alum. Storefront w/Dual pane, Low E glass, Temp per code.

21

WINDOW TYPE 2: Aluminum Sash and Frame w/ dual pane, low E glass. Tempered per code.

22

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

23

EXTERIOR TERRACE/ FLOOR TYPE 2: 3 4 Ipe wood decking o/ Excel-Coat Class 'A' 1-HR Fire Rated, Acrylic Deck Coating System as Mfgr by Excellent Coatings, Inc.(ICBO ER-4804) o/ wpg and structure.

24 25

SKYLIGHT:

Lane-Aire Manufacturing / LARR #02708

EXTERIOR GATE: Ipe wood o/ 2x2x1 4" Tube Steel structure.

26

FIREPLACE / VENT CHIMNEY:

27

GARAGE DOOR:

Spark Modern Fires; Direct-Vent Gas Fireplace Heaters w/ Simpson Dura-Vent Direct Vent Pro (3':ANSI Z21.88-2005/CSA2.33-2005 or 6':ANSI Z21.88a-2007/CSA2.33a-2007 per plan)

Sectional Overhead Door

INTERIOR NOTES A

GARAGE FLOOR: Elastomeric Traffic coating o/Reinf. Conc. Slab,

B C

D E

INTERIOR FLOOR TYPE 1: Stone Tile o/ Reinforced Concrete Slab

INTERIOR FLOOR TYPE 2: 3 4" Hardwood Flooring o/ PW o/ 2x sleepers o/ Reinforced Concrete Slab

INTERIOR FLOOR TYPE 3: Carpet o/ Pad o/ Reinforced Concrete Slab

INTERIOR FLOOR TYPE 4: Resilent rubber tile o/ Reinf Conc. Slab

F

G

INTERIOR FLOOR TYPE 5: 1

1 1 2" Stone Tile o/ 1 2" Lt Wt Conc. o/ Acoust. Memb. o/ 1 8" PW. Glue/Nailed (Annular Ring) o/ FJ.

INTERIOR FLOOR TYPE 6: 3

3 1 4" Hardwood Flooring o/ 4" PW o/ 1x Sleepers o/ 1 2" Lt Wt Conc o/ Acoust. Memb. o/ 118" PW Glued/Nailed (Annular Ring) o/FJ

H

CEILING TYPE 1: 5

J

# K L

8"

Type 'X' Gyp. Bd. o/ framing

CEILING TYPE 2: 3

4"

Wood Panel o/ 5 8" Type 'X' Gyp. Bd. o/ framing

WALL TYPES SEE A0.2 INT. WALL FIN 1: 5

8"

Type 'X' Gyp. Bd.

INT. WALL FIN 2: Stone Veneer

M

INT. WALL FIN 3: Stone Tile

N

INT. WALL FIN 4: 3

P

4"

PW. Wood Panel (to match cabinets)

CABINETRY: Hardwood faces, Stone countertops

R

INTERIOR DOORS (SOLID) 1-3/4" Solid Core Hardwood Veneer

S

INTERIOR DOORS (GLAZED) Aluminum Storefront w/ 5/16' lam translucent glass

STRUCTURAL S1

FOUNDATION: Cast in Place Reinforced Conc. Foundation (See Structural Drawings)

S2

RETAINING WALL: CMU wall, plaster where exposed. See Civil/Struct. Dwgs. for notes.

S3

STRUCTURAL WOOD FRAMING: See Structural

S4

STRUCTURAL STEEL FRAMING: See Structural

S5

CONCRETE SLAB ON GRADE: See Structural

S6

STRUCTURAL CONCRETE DECK: See Structural

MECHANICAL M1

HVAC SYSTEM OUTDOOR UNITS

M2

HVAC SYSTEM INDOOR UNITS

M3

DUCTS/ DISTRIBUTION DEVICES

P1

ROOF DRAIN/ OVERFLOW ROOF DRAIN

P2

AREA DRAIN

P3 PLUMBING PIPES ELECTRICAL E1

ELECT. SERVICE/ METER

E2

ELECT. PANEL

E3

LIGHTING/ DEVICES

Legal Description

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

EXTERIOR TERRACE/ FLOOR TYPE 1: Stone Tile o/ Structure

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT


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DS | Testa: Vertical Studio


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Ds 4303 | Vertical Studio: Peter Testa X-Lab Peter Testa Project | Glusion: Filament to Surface Objective | Material research + Material processes Acknowledgements | 2012 Spring Show Exhibition

In the search of new materials and fabrication methodologies, glusions’ approach establishes a constant dialogue between the physical properties of a material and the design intents. This is an investigation and interest in material behavior and form finding. This project engages the robotics in a rheological quest. Glusion addresses geometry, motion control, variable material and forming logics.

With the discovery of glusion, new material processes take advantage of robotic motion. Capturing this variable material in different ways such as molds and scaffolds create forming logics that develop different behaviors. Glusion establishes a new way of creating form with a rheological material.

4B

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DS | Testa: Vertical Studio

Speed 255mm/sec Length: 1/2 inch

Speed 180mm/sec Length: 4 inches

Speed 100mm/sec Length: 8 inches


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Material Behavior Stretch: 8 inches Elasticity

Speed 255mm/sec Rotation: 0 degrees Start point Cured position

Thickness: 1/64 inch Fineness

Speed 255mm/sec Rotation: 45 degrees

Speed 255mm/sec Rotation: 90 degrees

Thickness: 1/128 inch Hairlike

Over-registration Start point

Thickness: 1/2�

Over deposition

7 passes

Thickness: 3/4 inch

Overhang

Thickness: 1/4 inch Hanging

Hot melt glue as a rheological material can exist through phase changes without breaking down. Glusion is a homogenous, joint less material which can vary its form from a single strand to a solid mass. Viscosity allows the material to span in a variable manner Elasticity allows the material to be flexible and return to

its original form. Plasticity allows the material to build up upon itself creating variable density


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Process photos

Glusia is an attempt to explore new techniques of making form from molds by taking advantage of the phase change in a rheological material. Issues of form, texture, and strength are addressed. Glusia 1.1 Is the first glusia run in the robot lab where the body is used as a mandrel. The dialogue between the motion and material resulted in interesting discoveries.

Such as: -Seaming -Weaving -Detail path -Variable texture


DS | Testa: Vertical Studio

Glusia_1.1

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De-molding


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Here is the introduction of the augmented body mold and possible outcomes of the motion path. Patterning is explored through the tool path and the synchronous motion between the robots. Robot 3 has the glue gun attached to it and is dependent on 2 parameters, the path and its speed, and the on/off cycles controlled by the integrated pneumatics of the robot arm. Robot 2 holds the mold which has 3 variables. Rotation of joint 6 and its speed, the rotation of joint 5 and its angle and the displacement in the mold’s z-axis


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Material Swatches

This series explores material variability through manipulation of density, patterning, layering and fusing other materials like fiber strands and wire.

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Process photos

Glusia 2.1 Focused on linear and contoured seams which emphasized the edges in the mold. This seaming added lateral strengthto the glusioned surface Control points in the path controlled the on/off cycle of the tool.

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Process photos

Glusia 2.2 Uses a flexible scaffold inserted into the back of the mold. This surfaceless mold allows the material to span between the scaffold and the surface of the mold. The consistent texture of the material was controlled through the speed of the rotation. Pieces of fiber strands were added in certain areas for strength and tactility.

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Process photos

Glusia 2.3 Is an exploration of forming technique and utilizing the mold in a different way. The flat glue fabric is formed to the mold by a means of heat and pressure.

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Process photos

Glusia 2.4 Is an experiment focusing on motion control. The 2 variables introduced in this run include the displacement of the mold and the variability of speed in the rotation cycle.

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With the discovery of glusion, new material processes take advantage of robotic motion. Capturing this variable material in different ways such as molds and scaffolds create forming logics that develop different behaviors.



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AS | RoCoCo: Robotic Confections and Confabulations


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As 4378 | RoCoCo: Robotic Confections and Confabulations Devyn Weiser Project | Perspective Cube Series Objective | Experimented with perspective manipulation Acknowledgements | 2012 Spring Show Exhibition

Robotic Confections and Confabulations (RoCoCo) will be in three parts, examining painting techniques from Rococo through contemporary art; scripting/animating in Maya Dynamics, Paint, Fluids, Expressions, and Processing; creating a palette of rheological/biorheological materials; and simulating material effects with the six St채ubli robots.

Students will experiment with and create new end-arm tooling (effectors) for additive fabrication such as airbrushing, depositing, painting, spraying, and sputtering on 2D and 3D surfaces in 4D (real)time

4B

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Robot Path

AS | RoCoCo: Robotic Confections and Confabulations


AS | RoCoCo: Robotic Confections and Confabulations

Scanned Images

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Process photos

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Process photos

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Process photos


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Process photos

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Process photos

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Detailed Images


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Process photos

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Detail


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Process photos

Detail

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AS | RoCoCo: Robotic Confections and Confabulations

3D Canvas


AS | RoCoCo: Robotic Confections and Confabulations

Unfolded Canvas

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