Hsiao-Tung “Lily� Architecture Work Sample University of Florida 2016
lilyhung2000@gmail.com 352-999-3280
Hsiao-Tung “Lily” Hung
lilyhung2000@gmail.com 352-999-3280 320 sw 10th st. apt 103 Gainesville 32601 EDUCATION: Gainesville, FL May, 2016 Philadelphia, PA 2009-2012 Charlottesville, VA 2007
University of Florida GPA 3.7 Candidate for Master of Architecture University of Pennsylvania Post-Bacc Program University of Virginia Bachelor in Biology COMPUTER AND PROFESSIONAL SKILLS: Revit SketchUp AutoCad
Rhino Maxwell Grasshopper
Maya DIALux Sefaira
Adobe CS (Illustrator, InDesign, Photoshop) Microsoft Office (PowerPoint, Excel, Word) CNC Laser Cutter Model Building Graphic Presentation LANGUAGE: Proficient in English and Chinese. 2 semester studies in Japanese PUBLICATION: ReCharting Longboat Key. December, 1 2015. University of Florida, School of Architecture. Hung, Hsiao-Tung. 2013. Cube. Gainesville, FL: Architrave, University of Florida, School of Architecture. Friedman, Eliot B., Yi Sun, Jason T. Moore, Hsiao-Tung Hung, Qing Cheng Meng, Priyan Perera, William J. Joiner, et al. 2010. A conserved behavioral state barrier impedes transitions between anesthetic-induced unconsciousness and wakefulness: Evidence for neural inertia. Plos One 5 (7) (07/30): e11903, http:// dx.doi.org/10.1371%2Fjournal.pone.0011903.
AWARDS: Gainesville, FL December, 2015 Gainesville, FL. 2012-2014
University of Florida School of Architecture Gallery Design Competition 1st Place. University of Florida Holloway Scholarship Awarded in recognition of a record of academic excellence. WORK EXPERIENCE:
Gainesville, FL Summer, 2015
University of Florida, Architecture Department, Gainesville, FL. Student Assistant. Designed layout and text for the book “ReCharting Longboat Key.” Edited appropriate images of the book using Adobe CS (Photoshop, InDesign, and Illustrator)
Philadelphia, PA 2008-2012
University of Pennsylvania, Neuroscience Department (Amita Sehgal) Research Assistant. Designed and conducted biological experiments in a team oriented environment. Collected and Analyzed data using Microsoft Excel and Word.
Charlottesville, VA 2006-2007
University of Virginia, Biology Department (Michael Menaker) Research Assistant. Collected and analyzed data using Matlab, Clocklab, and Microsoft office (Excel, PowerPoint, and Word). Worked with professors and researchers on biological experiments. LEADERSHIP AND ACTIVITIES:
Guadalajara/Tequila/Mexico city, Mexico Summer, 2015
Mexico Summer Study Abroad Designed community center/laundromat for town of Tequila. Focused studies in Architecture and Mexico History and Culture.
Gainesville, FL 2016
Florida Disability Access and Awareness Foundation Volunteer. Volunteered in non-profit foundation to spread the awareness of the significance of disability accessible design. Built an accessibility portal that maps out Gainesville Florida from a wheel chair perspective.
Philadelphia PA 2009-2012
Chinese Christian Church and Center, Philadelphia PA. Sunday School Teacher & Praise Team Leader. Educated 7 –9 year-old children Christian beliefs and Bible. Played piano to supply music to praise service. Introduced ideas to expand the community awareness.
NEXUS - CLOISTER
Academic Work | Design Studio | Team Work | 2014 Fall
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REVIT PROJECT
Academic Work | BIM | Team Work | 2015 Fall
03-04
GALLERY COMPETITION - 1st place Academic Work | Environmental Technology | Team Work | 2015 Fall
05-06
COMMUNITY CENTER
Academic Work | Design Studio | Individual Work | 2015 Summer
07-08
MASTER THESIS PROJECT
Academic Work | Thesis Project | Individual Work | 2016 Spring
09-10
CENTER FOR ART AND ECOLOGY
Academic Work | Thesis Project | Individual Work | 2016 Spring
11-12
NEXUS - CLOISTER
Academic Work | Design Studio | Team Work | 2014 Fall Our design goal for the NEXUS engineering building is to make the building a functional, educational, and collaborate space for faculty, students and researchers. The project is an addition to the existing Nuclear Science Building, therefore a big open atrium is created to serve as a spacial connection to the old and new building. A glass dining hall on the roof of the existing building is another gathering space for the old and new building. A roof garden provides green space to the community. An amphitheater was created naturally on the ground floor follows the contour of the ground since the west side of the building is 13 feet lower than the east side of the site. Programs are organized in terms of their privacy and building. The lower levels contain programs that are more public, such as undergraduate and freshman suits, a computer facility, and video conference room The upper levels, contain programs that are more private, such as the engineering labs and offices.
CLADDING DETAIL of WEST & EAST WALL 1 dead load bracket 2 wind restraints 3 frieze element - aluminum 4 louvers and acoustic attenuators 5 spigot junction 6 roller binds integrated in ceiling 7 aluminum curtain wall 8 trench heater 9 concrete slab 10 metal deck 11 raised access floor GREEN ROOF 12 turf/plant rolls 13 loam / soil 14 oldroyd tp filter fleece 15 oldroyd xv20 greenxtra membrane 16 moisture retention mat 17 knauf piolyfoam floorboard 18 oldroyd xv green as additional separting drainage layer 19 bba approved waterproof layer
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Hsiao-Tung “Lily” Hung | lilyhung2000@gmail.com | 352-9993280
Ground Floor Plan
Typical Floor Plan
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REVIT PROJECT Academic Work | BIM | Team Work | 2015 Fall Project by Saad Al - Khulaifi Engineering Consultant Bureau Client: Saud Al Hashem Porject Name: Istashmary This project is the final project for BIM course. Our team’s afford was to construct the architecture in Revit and made the it into construction document. My role in the team was to construct the model. I built 90% of the model and constructed wall section drawing.
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Entry View 1
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East Elevation
Section 1
3
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Ground Floor Structure Plan
Section 2
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Typical Floor Plan
Hsiao-Tung “Lily” Hung | lilyhung2000@gmail.com | 352-9993280
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Perspective View
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Wall Section
GALLERY DESIGN COMPETITION Academic Work | Environmental Technology | Team Work | 2015 Fall
- 1 st place
The site of the gallery is at Melbourne Australia in a coastal, temperate zone, with a dry, warm summer and wet, cold winter. The gallery is designed with an atrium which pulls the warm air out and creates a public space. Photovoltaic cells are integrated with a shading system. The efficiency of solar PV louvers is directly related to orientation of the system and the tilt angel of each louver. Acoustic panels were an important aspect of the design for lobby space. Lighting fixtures were integrated into the panels as well, which interlock and diffuse artificial light throughout the lobby. The sawtooth monitor design of the skylights provides additional lighting and has small openings allowing the building to breathe.
North wall section North elevation
RIGID FOAM INSULATION ON METAL DECK WITH MEMBRANE WATER PROOFING
South elevation
OPERABLE SAWTOOTH SKYLIGHT MONITOR VENTILATION SYSTEM SPRINGLOCK COUNTERFLASHING PARAPET WALL WITH CONTINUOUS METAL COPING AND DRIP EDGE
Roof 51' - 0"
Roof 51' - 0"
Roof 51' - 0"
CONTINUOUS FLASHING ON FIBER CANT STRIP 8" C.I.P PARTY WALL (BEYOND) WOOD ACOUSTICAL PANEL CEILING WOOD ACOUSTICAL PANEL SOFFIT
level 2 33' - 0"
level 2 33' - 0" 8" CIP CONCRETE WALL WITH 3 5/8" FURRING, CLOSED CELL INSULATION AND 5/8" GWB SIGNAGE PHOTOVOLTAIC INTEGRATED LOUVER SYSTEM (BEYOND)
level 2 33' - 0"
level 1 15' - 0"
level 1 15' - 0" 6" STRUCTURAL FLOOR SLAB WITH HARDWOOD FINISH
EXTERIOR GRADE WOOD PANEL CEILING
ground 0' - 0"
ground 0' - 0"
ALUMINUM CURTAINWALL LOUVER SYSTEM PERMIABLE FLOOR FINISH
DRIP EDGE
level 1 15' - 0"
LIGHT WEIGHT INSULATED CONCRETE DECK WITH WATERPROOFING MEMBRANE (SLOPE 1/4"-1' MIN)
Basement
Ground Level
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HOLLOW METAL FRAME WINDOWS (BEYOND) 8" C.I.P. CONCRETE WALL WITH 3 5/8" FURRING, CLOSED CELL RIGID INSULATION, AND 5/8" G.W.B.
First Level
Second Level
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ground 0' - 0"
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EXISTING CONCRETE WALK DAMP PROOFING ON 8" C.I.P. CONCRETE WALL (BELOW GRADE)
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COARSE GRAVEL FILL WITH FILTER FABRIC DRAIN PIPE CONTINUOUS KEY 12" x 36" CONTINUOUS REINFORCED CONCRETE FOOTING THICKENED SLAB EDGE
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GRANULAR CAPILARY BREAK AND DRAINAGE PAD 6" FOUNDATION SLAB STAINED AND POLISHED CLOSED CELL HIGH DENSITY RIGID INSULATION
basement -10' - 0"
DAMP PROOFING ON 8" C.I.P. CONCRETE WALL COARSE GRAVEL FILL WITH FILTER FABRIC DRAIN PIPE CONTINUOUS KEY 12" x 36" CONTINUOUS REINFORCED CONCRETE FOOTING THICKENED SLAB EDGE GRANULAR CAPILARY BREAK AND DRAINAGE PAD 6" FOUNDATION SLAB
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1 basement 2 lobby 3 lobby / lecture space 4 restroom 5 painting gallery 6 sculpture gallery 7 outdoor sculpture gallery
Hsiao-Tung “Lily” Hung | lilyhung2000@gmail.com | 352-9993280
B. INTEGRATED PHTOVOLTAICS DAYLIGHTING AND VENTILATION
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A. INTEGRATED
LIGHTING AND ACOUSTIC CEILING PANELS
C. INTEGRATED PHOTOVOLTAICS
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AND INDIRECT LIGHTING STRATEGY
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COMMUNITY CENTER
Academic Work | Design Studio | Individual Work | 2015 Summer San Martin de las Canas is a small town in a rural area about 30 minutes drive north of Tequila, Mexico. It is formed by people who mostly grow tequila and own small business as grocery stores that sell cold beverages and snacks. The community center by the lake provides a public space where people can gather together and enjoy each other’s company as well as offering a laundry facility. The building, mainly contains three spaces - a community space, dining space, and a semi-outdoor playground for children. The roof is supported by four tree like columns and the building itself has a tectonic feather of window panels that are functional and aesthetically pleasing.
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Hsiao-Tung “Lily” Hung | lilyhung2000@gmail.com | 352-9993280
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MASTER THESIS PROJECT
Academic Work | Thesis Project | Individual Work | 2016 Spring My thesis project is to explore the possibilities of the material Nitinol, in relation to other materials such as paper, metal sheets, and acetate, to create an adaptive facade system without energy use. Nitinol, also known as Nickel Titanium is a nickel - titanium metal alloy with unique properties. This alloy exhibits superelasticity or psuedoelasticity, and shape memory properties. It means this unique metal can remember its original shape and shows great elasticity under stress. The metal contains nickel and titanium at approximately equal atomic percentages. Nitinol comes in wire, sheets, tubes, and coils. It can be trained to different shapes by high heat (1000°F). After the metal cools down, it changes to the shape when it was trained. The metal relaxes when the heat is removed. Because of Nitinol’s superelasticity, the metal can be activated by heat from the sun or electricity. This offers an opportunity to create an adaptive facade system that does not require energy use. On the other hand, because Nitinol is a metal, it can be activated by conducting electricity therefore when it is needed, facade system can also be connected to power system. My thesis project is to incorporate the unique properties of Nitinol into a façade system with different materials and shapes. At phase I, paper was used to create different shapes of facade systems, such as gills, flowers and cell types. At phase II, aluminum was used in a gill type with nitinol wire attaching to it. When the heat is given, Nitinol wire moves with the facade system. More iterations currently are being explored.
How to actuate?
Austenite
VS. Martensite
Martensite
Nitinol Wire
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Hsiao-Tung “Lily” Hung | lilyhung2000@gmail.com | 352-9993280
Process
or or
Relaxing State Shaping
Video
De-shape
Training Shape (1000 °F)
Actuating (direct heat: flame, warmwater, sunlight , or the daily change in air temperature)
https://vimeo.com/156760970
Heat
138.6°
138.6°
shorter object VS.
VS. longer object
133.9°
133.9°
Flower
Gill
133.9°
133.9°
Pore-like
forces from top VS.
VS.
forces from bottom Cell Type
133.9°
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133.9°
CENTER FOR ART AND ECOLOGY
Academic Work | Design Studio | Individual Work | 2013 Fall
The project is in Paynes Prairie, Gainesville FL, on a site known as the Bolen Bluff Trail which is located on the south rim of the prairie. The trail is composed of an upland loop, about half of which is dry woodland dominated by laurel, live oaks and water oaks. The other half is shady hammocks which provide an ideal habitat for a large diversity of animals. Paynes Prairie and its edge are also home to herds of bison, alligators, wild horses, feral hogs, and over 270 species of birds. The program provides students and artists work together to develop a common understanding of Florida’s landscape and ecology. The site is chosen at the transition of the forest and the prairie, which are two unique landscape conditions present here. A part of the existing trail is eradicated and a new trail is created to direct its way to the architecture.
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Hsiao-Tung “Lily” Hung | lilyhung2000@gmail.com | 352-9993280
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