Xiaoxi Tammy Tan - Portfolio 2017

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P O R TFOLIO

X I A OX I TA M M Y TA N | S T U D E N T A R C H I T E C T | G R A D UAT E E N G I N E E R S E L E C T E D WO R K S

Ta mmy X i a o -x i Ta n 晓-溪 谭

My name is Tammy Tan, and I am an architecture student at the University of Sydney. I am currently looking for a student architect position on a part-time basis in an architecture studio. I completed a double degree (Bachelor of Design in Architecture and Bachelor of Engineer ing) at the University of Sydney in 2016. The unique combination of education enables me a broader vison and deeper understanding in both fields. Carrying a fusion of values from the two, I resumed my study in Master of Architecture in 2017, for my ongoing cur iosity and passion in both engineer ing and architectural challenges. The portfolio selects works from 2015 to 2017. It follows the themes from visionar y architecture to tectonic architecture. It shows my thoughts and speculative steps in explor ing the inextr icable relation between architecture and engineering, nature and culture. Struggled in between, with open mind and many unknow, I am ready to be a keen leaner. Thanks for taking time considering my application. I look forward to hearing from you.

Mobile: +61413685876 Email: xtan2683@uni.sydney.edu.au

General:

Citizenship Languages

Australian Permanent Resident English - Full Professional Proficiency Mandarin – Native or Bilingual Proficiency

Education:

Other Experience:

Skills

2017 - present Australia

Master of Architecture The University of Sydney - Expected Graduation in 2019

2012 - 2016 Australia

Bachelor of Design in Architecture The University of Sydney

2012 - 2016 Australia

Bachelor of Engineering (Civil Engineering) The University of Sydney - 1st Class Honours - Honours Thesis: Behaviours of Large Dimensional Concrete-Filled Steel Tubular Column with Defects

2016.12 - 2017.1

Rhinoceros and Grasshopper Workshop McNeel Asia

2016.6 - 2016.12

Advanced Diploma of Translating Sydney Institute of Interpreting and Translating - National Accreditation Authority for Translators and Interpreters: Professional Translator from English into Chinese

2015.12 - 2016.2

China Architecture Design Group (Structural Design Department) - Assistant Engineer (internship) - Responsible for communication with architectural design department, preliminary structural design, drafting and documentation

2014.12 – 2015.1

Beijing NO.3 Construction Engineering - Student Engineer (internship) - Responsible for engineering supervision on site

Architecture

Engineering

Language

AutoCAD/ Revit Adobe Creative Suite Rhinoceros / Grasshopper / Google Sketchup Maxwell Render/ Vray Model making by hand / laser cutting / 3D printing / welding / casting Finite Element Analysis / Abaqus Strand 7 / Macrostrain / PKPM / YJK Engineering Survey / Levelling and Traversing Drain Professional Translator from English into Chinese

Po r t f ol i o C o n t e nt s

VISIONARY ARCHITECTURE

CHAPTER I: 01 - 18

01 Cycle Bridge Project of Habitable Bridge - Architectural Studio 3A - Semester 1, 2015

19 - 48

02 Part Powerhouse Museum Project of Digital Design – Architectural Studio 3B - Semester 2, 2015

TECTONIC ARCHITECTURE

CHAPTER II 49 - 60

03 99-109 Chapel Street, Darlinghurst Project of Apartment Design - Architectural to Structural Design - Semester 2, 2016

61 - 70

04 158 West Street, Crows Nest Project of Alterations and Additions - Architectural Professional Practice - Semester 2, 2016

Back to Life

Chapter III 71 - 72

05 Rural Way of Living in Chongqing, China Photography - Living in the countryside - Jan 2017 – Feb 2017

ARCHITECTURE STUDIO 3A

01 C yc le B r id g e Project of Habitable Bridge

B a che l o r o f A r ch it e c t u r e , S e m e s t e r 1, 2 015 Tut o r : D r Ro s s A n d e r s on Coord inator: D r Ro s s A n d e r s on I n d i v id u a l Wo r k

ARCHITECTURE STUDIO 3A

Project Brief: The project is based on an imaginary site. The aim of the project is to design a habitable bridge across the river. Giving a specific geog raphical context, the br idge is considered not only as a physical linkage cross the environmental obstacle but also a metaphor of moment transition between two randomly assigned programs to each student. In this case, the allocated programs are wine bar and tobacconist.

Concept Diagram: The search for essence relation between wine and tobacco queries the answers to what wine and tobacco actually are, where they are coming from, and to where they are going to. Influenced by Pythagoras’s theory of metempsychosis and Zhuangzi’s views of uniformity, the concept for the design - Cycle, gradually emerged. Ideal visions came to mind: Between earth and sky, where lays the existence and development of all creatures, consistent flow of water, is the spir it and the source of life. A waterwheel dr iven by r iver cur rent raises the water and irrigates the land along the banks, where wine grapes are r ipening on the south bank of the r iver while tobacco yield on the north. Tobacco leaves are made to cigarettes, burnt to ashes, fallen back to earth to nourish the new growth. Grapes are made to wine, volatized and drawn up by the clouds, and again rained back to fertilise earth. I t i s t h e c y c l e o f n a t u re, t h e i n t e rd e p e n d e n c y a n d mu t u a l nour ishment that br ing us the continuous supply of wine and tobacco.

Concept Model: The concept model addresses human activities involved in the Cycle. Putting the chaotic mix into a sieving device and shaking it, depict human planting, picking, and producing. As the result, they are being separated orderly into fine products of wine and tobacco. Inverting the device, the ordered separations would remix to the chaotic state again. This implicates human consumption of wine and tobacco and the post consumed state of the two in soil.

Concept Model A 03/

Concept Diagram

Concept Model B

CYCLE BRIDGE

/04

ARCHITECTURE STUDIO 3A

Volume|Form Exploration

Form: Inspired by MÜbius Str ip and Infinite Stairs, with the notion of the Cycle, a loop shape is integrated into the landscape following the height difference between the banks of river. Meanwhile, the form is also a trace to the movement of wine and tobacco growth in the Cycle – both beginning on the level of ground, reaching out across the r iver into the underground of the opposite bank and then raising back to ground level again. This also ensures a continuous dual layering of architectural experiences both inside the volume and outside on the roof plane.

Architectural Experience: Walking onto and into the bridge in a clockwise manner, the path leads to a sequence of events, from planting and harvest, through to production sequence in steps, and finally into stores of fine products, dur ing which people are encouraged to engage far m work to be rewarded by the gift of nature. The bridge becomes a vessel of the Cycle, a self-sufficient, self-contained mechanism, but under which everything is interdependent, waxing and waning. The built up architectural exper iences of walking project back the notion to people a full realisation of the underlying Cycle of nature and human practices within the Cycle that taking from and giving back to the nature.

Tobacco

Wine

Water

Crop

Cycles of Circulation|Form Exploration

05/

Architectural Experience

CYCLE BRIDGE

/06

07/

ARCHITECTURE STUDIO 3A

Irrigation: Water from the river carried by the giant waterwheel are redirected into handrail conduit on the roofscape, along which water then flows down to reser voir s on shore. With overflow outlets, when rain falls are maximum, water is automatically poured back to the river. The irrigation cycle serves as an ongoing supply to agriculture and domestic use.

Plantation: As wine grapes and tobacco plants both are shallow root, soil trenches with depths waving from 0.25m to 1.5m allow plantations of var ious types, and more impor tantly, divide the g reen roof into modules of planting boxes for crop rotation. Wine g rapes and tobacco are planted in ever y other trench. Like the idea of Hilbert’s paradox of the Grand Hotel, if all crops (including those on either side of the r iver) could constantly move to the next spot and onto the br idge in a clockwise manner in the next planting season, an infinite crop cycle engaging both side of the river would be achieved to maintain soil fertility.

Facade: Facade design is based on view. Br utalist concrete featured with thin ver tical line textures envelopes the outer periphery of space with window slits, sober outlooks to the world outside its’ frame. The inner per ipher y of space is covered by glass walls, enable juxtaposition of views across workshops, and centres attention to super posed senses of the two ser ies of sequential production.

CYCLE BRIDGE

/08

ARCHITECTURE STUDIO 3A

B Tobacco Store

C 11/

Exit

Rest / Recreation

Tobacco Store and Workshop

B

A Packing

Drying and Cooling

Mixing and Granulation

Milling and Weighting

Entrance

Section AB | Architectural Exper ience

Section BC | Architectural Exper ience CYCLE BRIDGE

/12

ARCHITECTURE STUDIO 3A

D Wine Store

A 13/

Exit

Rest / Recreation

Wine Store and Workshop

D

C Bottle and Aging / Wine Bar

Tank and Barrel

Press

Crush

Entrance

Section CD | Architectural Exper ience

Section DA | Architectural Exper ience CYCLE BRIDGE

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15/

ARCHITECTURE STUDIO 3A

CYCLE BRIDGE

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17/

ARCHITECTURE STUDIO 3A

CYCLE BRIDGE

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02

Pa r t Powe r hou s e Mu s eu m Project of Digital Design

ARCHITECTURE STUDIO 3B

B a che l o r o f A r ch it e c t u r e , S e m e s t e r 2 , 2 015 | I n d i v id u a l Wo r k Tut o r : Iv a n a K u z m a n ov s k a Coord inator: C a t he r i ne L a s s e n

ARCHITECTURE STUDIO 3B

Opera House Study|Utzon’s Original Drawing

Project Brief: The site is located behind the Mint on Hospital Road. On the occasion of the Powerhouse being relocated to Par ramatta, the project, being conceived as a built ‘window,’ or gateway from the city to that museum’s new wester n home, is a small gallery for temporary architectural exhibitions. Sur rounded by the Art Gallery of NSW, the Mint, and Hyde Park Barrack Museums, the project aims to situate a changing part of that remote collection in an urban context associated with its past. A parallel studio investigation is required to study the Opera House, focusing on an under standing of its methodolog ical approach and connections to computational thoughts, from which a parametr ic schema can be for med, and based on which the design may begin with.

Opera House Study|Utzon’s Original Drawing 21/

Opera House Study Utzon’s original approach to the minor hall ceiling interiors seemingly involved three sets of elements: rays, tangents, and circles. Through the study of Utzon’s drawings and related supplementary materials, the puzzled relation between these three sets of elements may decompose into four steps:

Sound Origins

Sound Rays

Tangency (in plane)

Tangency (out of plane)

Opera House Study|Analysis of Utzon’s Approach

F i r s t l y, U t z o n s e t u p points of acoustic interest at d i f ferent level s u nder the shell on stage and out of stage, originating from where sound effects were tested.

Then based on ray acoustics, the analytical tracks of sound rays were traced. Those rays were then used as tangents, together with the boundary defined by the outer shell, to guide the laying of circles.

Within the range, the circles were laid in a sequence of movement. The movement is happening simultaneously in two directions, in plane with the page and out of plane into the page.

The dissertation written by Philip Nobis, the Design Development of the Major and Minor Hall, gives away some clues on the primary geometrical principle laid behind the movement of circles. From measurements and speculations, the geometrical principle can be concluded are follows:

A circumscr ibed circle, an inscr ibed circle, and a circle of centre trace are drawn concentrically in a ratio of 1:1.7:1.4 in radius.

Radius 1 : 1.7 : 4.4

Rays are then set up from the common centre. The angle between the rays formed a natural number sequence, in which the d i f f e re n c e i n c re a s e s by one each irritation.

Angles in Series

The points of intersection b e t we e n t h e r ay s a n d the W give the centre of circles in the movement.

Circles in Movement

Opera House Study|Analysis of Utzon’s Geometrical Pr inciple PA R T P O W E R H O U S E M U S E U M

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ARCHITECTURE STUDIO 3B 23/

The pr imary geometr ical pr inciple is evidenced being directly applied in Utzon’s approach, and meanwhile a certain degree of variation was also observed. How Ultzon might have implemented these ideas into the design of the Sydney Opera House gives a starting point of early schema of the Gallery project.

Opera House Study| Analysis of Utzon’s Application of the Geometrical Pr inciple PA R T P O W E R H O U S E M U S E U M

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ARCHITECTURE STUDIO 3B

3 6 = 3+3 10 = 6+4 15 = 10+5 21 = 15+6 28 = 21+7 36 = 28+8 45 = 36+9 55 = 45+10 68 = 55+10+ 3 82 = 68+10+ 4 97 = 82+10+ 5 113 = 97+10+ 6 130 = 113+10+ 7 148 = 130+10+ 8 167 = 148+10+ 9 187 = 167+10+10 210 = 187+10+10+ 3 234 = 210+10+10+ 4 259 = 234+10+10+ 5

Early Schema T h e e a r l y s c h e m a wa s d i s c ove re d f ro m t h e extension of the number sequence obser ved from Utzon’s Geometr ical Pr inciple following its own progression rule, which guides the rays to radiate and the circle to complete its motion in a full round. Using Grasshopper, different radius composition in the mathematical based p ro p o r t i o n a n d i n i t i a l p h a s e o f r ay s we re further explored to understand the logic behind the principle. 25/

285 = 259+10+10+ 6 312 = 285+10+10+ 7 340 = 312+10+10+ 8 369 = 340+10+10+ 9 (>360 reject)

1 : 1.7 : 4.4

0

3

6

10

15

21

28

36

45

55

68

82

97

113

130

148

167

187

210

234

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285

312

340

312

285

259

234

210

187

167

148

130

113

92

82

68

55

36

28

21

15

10

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3

0

3

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10

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21

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36

45

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68

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92

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167

187

210

234

259

285

312

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PA R T P O W E R H O U S E M U S E U M

/26

ARCHITECTURE STUDIO 3B

Apply Schema to the Context The early schema developed from Opera House p r i n c i p l e wa s a p p l i e d t o m a p p i n g a n a l y s i s t o e s t a bl i s h g u i d e l i n e s t o e x p l o re p o s s i bl e geometr ic ar rangements on site, initially in a zoning sense. T h e c e n t r e s o f r ay s f ro m t h e A r t G a l l e r y of NSW, the Mint, and Hyde Park Bar rack M u s e u m s a d d r e s s t h e p a s t o f Powe r h o u s e Museum being part of the Mint and Hyde Park Bar rack Museums and its potential relation with a museum promenade across the vicinity of the Domain. With the help of digital fabrication, study was done to var ious extrusion of for ms based on the movement of circles led by the established guidelines on site, consider ing a balance of p o s s i bl e d e s i g n v i s i o n s , g e o m e t r i c p a t t e r n s and spatial for ms. The finalised response was optimized by view and circulation control. Apply Schema to the Context| Study Models 27/

Apply Schema to the Context| Mapping

Apply Schema to the Context| Mapping Analysis PA R T P O W E R H O U S E M U S E U M

/28

ARCHITECTURE STUDIO 3B

The generation of stepped platfor ms, inner s p a c e a n d a c c e s s i b l e ro o f s p a c e a l l r e l a t e directly back to the early schema through the movement of circles that or iented by rays of guidelines tracing site conditions. Rooms, corridors, stairs, rails and walls, places to sit, to watch, spots to linger in and to pass by, each museum piece is an addition or subtraction of circles. All pieces in a collective scale come together as a landscape through an interactive play of parametric schema.

Apply Schema to the Context| Study Models

Apply Schema to the Context| Subdivision of Zoning Volume 29/

Apply Schema to the Context| Testing Variations of Museum Pieces PA R T P O W E R H O U S E M U S E U M

/30

ARCHITECTURE STUDIO 3B

A Heterotopia Space In history, the Powerhouse museum was once part of the Mint and Hyde Park Bar rack Museums, but was kept relocating over the past century. Through several times of relocating, what has been transferred? And what has been remained? I n M i c h e l Fo u c a u l t ’s a r t i c l e, O f O t h e r S p a c e s : U t o p i a s a n d Heterotopias, “the space in which we live, which draws us out of our selves, in which the erosion of our lives, our time and our histor y occur s, the space that claws and gnaws at us, is also, in itself, a heterogeneous space.” A museum like this is “a heterotopia space, which is linked to slices of time, and where time accumulates.” M i c h e l Fo u c a u l t ’s c o n c e p t o f h e t e ro t o p i a s a n d t h e s c h e m a developed from Opera House Study unfold the design of a temporary gallery in an urban context associated with its past, by intensifying the sense of other space within and beyond, providing a sensory experience that one can keep receiving hints of moving, visual persistence of the past and visions of the future.

Intended to be housed in Garden Palace

Technological Museum in Harris

Agriculture Hall in domain, 1882 31/

Parramatta

Street, 1893

Powerhouse Museum (the old Ultimo Power Station) in Harris Street, 1988 PA R T P O W E R H O U S E M U S E U M

/32

ARCHITECTURE STUDIO 3B 33/

From the Hyde Park Barracks Museum, morning

PA R T P O W E R H O U S E M U S E U M

/34

ARCHITECTURE STUDIO 3B 35/

From the Hyde Park Barracks Museum, morning

From the Art Gallery of New South Wales, noon

PA R T P O W E R H O U S E M U S E U M

/36

ARCHITECTURE STUDIO 3B 37/

From the Hyde Park Barracks Museum, morning

From the Mint Museum

From the Art Gallery of New South Wales, noon

m, dusk

PA R T P O W E R H O U S E M U S E U M

/38

ARCHITECTURE STUDIO 3B

Mater ial exploration further enhances both the conceptual frame and the sensor y exper ience. Var ying deg rees of mater ial t r a n s p a re n c y ve i l t h e l aye r s o f h i d d e n g e o m e t r i e s , bl u r t h e boundaries of spaces, meanings, events and senses, and thus result in an infinite overlap of time and space. The temporary gallery perfor ms as a heterotopian visitor in the urban context, causing reflection on being.

Section A-A

39/

Section B-B

Section C-C

PA R T P O W E R H O U S E M U S E U M

/40

At the Entrance

41/

ARCHITECTURE STUDIO 3B

PA R T P O W E R H O U S E M U S E U M

/42

ARCHITECTURE STUDIO 3B

At the Entrance

On the Stairs

43/

PA R T P O W E R H O U S E M U S E U M

/44

ARCHITECTURE STUDIO 3B

At the Entrance

On the Stairs

45/

On the Terrace

PA R T P O W E R H O U S E M U S E U M

/46

ARCHITECTURE STUDIO 3B

At the Entrance

On the Stairs

47/

On the Terrace

On the Roof

PA R T P O W E R H O U S E M U S E U M

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03

9 9 -10 7 C h ap e l St re et , D a r l i n g hu r s t Project of Apartment Design

A R C H I T E C T UA L T O S T RU C T U R A L D E S I G N

B a che l o r o f A r ch it e c t u r e , S e m e s t e r 2 , 2 016 Tut o r : Joh n He w it t a n d D a m ie n M a d e l l Coord inator: Joh n He w it t a n d D a m ie n M a d e l l I n C o l l a b o r a t ion w it h : Ro g e r L i a n d C he n y i S h a n

Project Brief: Architectural to structural design is a core unit for Bachelor of Engineering and Bachelor of Design in Architecture combined students. W i t h i n 1 0 we e k s o f d e s i g n t i m e, s t u d e n t s a re e x p e c t e d t o d e ve l o p c o n c e p t u a l a r c h i t e c t u r a l solutions in the first half of the semester, and in the second half of semester, students are allocated to structural design and structural analysis to the proposed architectural solutions. Focusing on resolving conflicting interests and concept solutions for addressing both architectural and str uctural requirements, the Unit aimed at e n h a n c i n g t h e s k i l l s i n b r i d g i n g b e t we e n t h e architectural and engineering disciplines. The project is based on the site at 99-107 Chapel S t re e t , D a r l i n g h u r s t . A n ew a p a r t m e n t i s t o b e built to replace the or ig inal. The client requires a design solution that will optimize development yield, provide excellent amenity, employ sustainable construction technolog ies and utilize an efficient and integrated structural concept.

A R C H I T E C T U R A L TO S T RU C T U R A L D E S I G N

Site Analysis

Wind

Architectural Design:

Sun Path

The architectural design is a response to the conflict between c o m p a c t l iv i n g a n d m a x i m i z e d a m e n i t y, we l l p ro t e c t e d p r i va c y a n d e n c o u r a g e d c o m m u n i t y i n t e r a c t i o n . T h e architectural design of the new apartment aimed to challenge the way apartments were used to be built and in turn affects the way people used to living in an apartment. With site analysis as the guide, the architectural scheme is a play of volumes of typical studio, 1-bedroom, 2-bedroom, 3-bedroom and retail spaces. The overlapping ar rangement and orientation are tested to give optimized solar access. Volumes of atr ium and L shaped balconies are taken out to enhance ventilation. The layout of L shaped balconies is carefully considered. They sit at the boundar y of each module, achieving no shared walls between modules to regulate pr ivacy. With one side preserved pr ivate, the other side of the L shaped balconies link to the communal atrium space, providing extra oppor tunities for communication within the community. T h e c e n t r a l a t r i u m i s c ove re d w i t h s k y l i g h t , a l l ow i n g additional daylight and keeping rain off . With maximum 4 a p a r t m e n t s o n e a c h f l o o r, f l ow d e n s i t y o f p e o p l e i s minimized. Decks lead circulation from main stairs to each door of the apartments, enabling efficient fire egress for each apartment owner within steps.

Main Street

Runoff Direction

Pedestrian / Vehicle Access

Traffic Flow Direction 51/

Studio

Mod

ules

1-bedroom 3-bedroom

Join

2-bedroom 2-bedroom Retail

Sepa

ratio

n

Volume Test and Analysis

9 9 - 1 0 7 C H A P E L S T R E E T, D A R L I N G H U R S T, 2 0 1 0

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A R C H I T E C T U R A L TO S T RU C T U R A L D E S I G N

The proposed architectural design also combined the need for retail spaces with apartment spaces, for ming featur ing SOHOs. L shaped balconies sitting i n b e t we e n b u f f e r t h e e x p e r i e n c e o f transition between home and work.

Structural Design and Analysis: Fo r s t r u c t u r a l d e s i g n o f a p a r t m e n t t o t h i s s c a l e, c o n c re t e s t r u c t u re w i t h f l a t slab floor ing system and columns spacing 4m to 6m would be the most economic choice. Lateral stability is obtained by two cores located at east and west ends. The size of core is ver ified according to AS1170.0, AS1170.2 and AS1170.4, for str uctural soundness under wind force, seismic action and robustness load.

Typical SOHO Exploded Diagram

53/

Plans from Basement Level to Level 5

9 9 - 1 0 7 C H A P E L S T R E E T, D A R L I N G H U R S T, 2 0 1 0

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A R C H I T E C T U R A L TO S T RU C T U R A L D E S I G N

Lateral Stability Verification and Sizing of Cores

Fire Egress

55/

9 9 - 1 0 7 C H A P E L S T R E E T, D A R L I N G H U R S T, 2 0 1 0

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A R C H I T E C T U R A L TO S T RU C T U R A L D E S I G N

2.

Load Take Down: 1. Structural Members on Each Floor 2. Indicative Diagram of Load Transfer in a Typical Transfer Beam 3. Indicative Diagram of Load Transfer on a Typical Floor Grid

3.

Although the architectural design g ives substantial challenges in terms of varying spatial arrangements, the structure design is found in rigours column grid system that run through the whole building. Thus, vertical load is distr ibuted on slab and directly taken down by columns at same position on each level to the ground. Except for car park area on the basement level, where less columns and longer span is expected. Columns must be offset on this level. All the loads stacked up from the floor s above would have to be transferred laterally to the new column location. Transfer beams are used for such purposes. Transfer beams appear as an inter nal wall, occupying the whole depth of the ground level, making it efficient against great bending moment caused by the point load transferred from the column above. Sizing of str uctural member s including typical slab, column, transfer beam and reinforcement layout within them are determined per related clauses in AS3600 and AS1170.0 under worse scenario assumption.

Construction Consideration: Using cast in situ concrete reinforced str uctural member s and precast concrete cladding panels, the project also attempts to increase construction feasibility and prefabrication possibilities. 1. 57/

Reinforcement Layout of Typical column

Section of Typical Slab with Reinforcement

Reinforcement Layout and Connection Between Typical Transfer Beam and Floor Slab 9 9 - 1 0 7 C H A P E L S T R E E T, D A R L I N G H U R S T, 2 0 1 0

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Detailed Section of Facade

59/

Stanley St Elevation

A R C H I T E C T U R A L TO S T RU C T U R A L D E S I G N

Connection Detail Between Precast Concrete Wall Panels

Connection Detail of Window Frame with Precast Concrete Wall Panel (left) Connection Detail Between Precast Concrete Wall Panel and Intermediate Floor Slab (right) 9 9 - 1 0 7 C H A P E L S T R E E T, D A R L I N G H U R S T, 2 0 1 0

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A R C H I T E C T U R A L P RO F E S S I O N A L P R AC T I C E

04

1 5 8 We s t S t re e t , C row s N e s t Project of Alterations and Additions

Bachelor of Architecture, Semester 2, 2016 Tutor : Temara Lane Coordinator : Suzannah Potts Individual Work

Project brief: The site is at 158 West Street Crows Nest, 2065. The project centers on the design of residential alterations and additions and the documentation for submission of a Development Application. A complete submission to the course covers the following: D eve l o p m e n t A p p l i c a t i o n Fo r m ( n o t i n c l u d e d i n t h i s portfolio) Development Application Drawing Set (mostly included in this portfolio) BASIX Report (not included in this portfolio) Statement of Environmental Effects (not included in this portfolio) Heritage Impact Statement (not included in this portfolio)

A R C H I T E C T U R A L P RO F E S S I O N A L P R AC T I C E

Existing Conditions: 1. Street Frontage 2. South Side of House 3. Rear of House 1.

The Proposal:

2.

3.

The development application involves alterations and additions to an existing dwelling at 158 West Street, Crows Nest, 2065 (Lot A, DP. 441366). The subject site is located at the corner of West Street and Burlington Street within a low density residential land zoning area (R2), attached with 160 West Street under a common roof. Situated in the Holter mann Estate Conservation Area, it is identified as a contr ibutory item. Owning to this, the main challenge of this proposed development is to maximize amenities as the clients required under the existing roof scape to minimize potential impacts on the streetscape and character of the heritage conservation area. Proposed works include: Clearly defined entrances by new front and rear fences with gates to enhance its street appearance, reinstating characteristic features; Pavements and landscaping leading from gates to doors to improve visiting experience; Enriched Level changes of the rear yard landscape using recycled brick debris to provide efficient pretection to unwanted glare during sunset while adding visual interests. Re-organization and extension of ground floor to achieve an open planed kitchen, dining, living area; An additional first floor with step down to allow a new bad room, a bath, and storage under the existing roof scape; A series of skylights and top hinged windows to compensate the lack of solar access and cross ventilation; Retained existing facade. All new works are invisible from main street. 63/

Proposed Inter ior Materials 4. Polished Concrete 5.Vinyl Tiles 6. Wood Wrapped Steel Stair 7. Carpet

4.

5.

6.

7.

8.

9.

10.

11.

12.

13.

Proposed External Materials 8. Concrete 9. Zinc Roof with Skylight 10. Steel Framed Window 11. New Brick Wall / Inverse veneer 12. Timber Deck on Gabion Cage 13. Recycled Demolished Building Debris Held in Gabion Cage

1 5 8 W E S T S T R E E T, C ROW S N E S T, 2 0 6 5

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A R C H I T E C T U R A L P RO F E S S I O N A L P R AC T I C E

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67/

A R C H I T E C T U R A L P RO F E S S I O N A L P R AC T I C E

1:100

1:100

drawing key existing shadow unchanged proposed new shadow reduced shadow Note: ex. fences and n. landscape have not been cast for clearity but the ex. terrain of 158 being higher than 156 by 1 metre has been applied.

key site boundary

bdy boundary ex existing cfc compressed fibre cement

drawing key dp n rt

downpipe new roof tile

br f sl

brick fence skylight

ARCHITECTURAL PROFESSIONAL PRACTICE

t timber td timber deck slo skylight over

pc vt

polished concrete vinyl tiles

Project address

Drawing Name

Drawing Scale

158 West Street Crows Nest, 2065

SHADOW DIAGRAM

1:100 Drawing ID DA 12

Xiaoxi TAN SID 311207008

1:100 drawing key

site boundary

site boundary

bdy boundary ex existing cfc compressed fibre cement

dp n rt

downpipe new roof tile

br f sl

brick fence skylight

ARCHITECTURAL PROFESSIONAL PRACTICE

t timber td timber deck slo skylight over

dp n rt

downpipe new roof tile

br f sl

Drawing Name

Drawing Scale 1:100 Drawing ID DA 15

key

brick t timber existing shadow unchanged fence proposed new shadowtd timber deck skylight reduced shadow slo skylight over Note: ex. fences and n. landscape have not been cast for clearity but the ex. terrain of 158 being higher than 156 by 1 metre has been applied. Project address

ARCHITECTURAL PROFESSIONAL PRACTICE

pc vt

158 West Street Crows Nest, 2065

polished concrete site boundary vinyl tiles

bdy boundary ex existing cfc compressed fibre cement

Drawing Name

Drawing Scale

SHADOW DIAGRAM

1:100 Drawing ID DA 12

Xiaoxi TAN SID 311207008

1:100

drawing key

key site boundary

bdy boundary ex existing cfc compressed fibre cement

dp n rt

downpipe new roof tile

br f sl

brick fence skylight

ARCHITECTURAL PROFESSIONAL PRACTICE

t timber td timber deck slo skylight over

pc vt

polished concrete vinyl tiles

Project address

Drawing Name

Drawing Scale

158 West Street Crows Nest, 2065

SHADOW DIAGRAM

1:100

downpipe new roof tile

br f sl

ARCHITECTURAL PROFESSIONAL PRACT Xiaoxi TAN SID 311207008

drawing key site boundary

site boundary

bdy boundary ex existing cfc compressed fibre cement

dp n rt

downpipe new roof tile

br f sl

brick fence skylight

ARCHITECTURAL PROFESSIONAL PRACTICE

t timber td timber deck slo skylight over

dp n rt

downpipe new roof tile

br f sl

Drawing Name

Drawing Scale 1:100 Drawing ID DA 16

key

brick t timber existing shadow unchanged fence proposed new shadowtd timber deck skylight reduced shadow slo skylight over Note: ex. fences and n. landscape have not been cast for clearity but the ex. terrain of 158 being higher than 156 by 1 metre has been applied. Project address

ARCHITECTURAL PROFESSIONAL PRACTICE

pc vt

158 West Street Crows Nest, 2065

polished concrete site boundary vinyl tiles

bdy boundary ex existing cfc compressed fibre cement

Drawing Name

Drawing Scale

SHADOW DIAGRAM

1:100 Drawing ID DA 13

Xiaoxi TAN SID 311207008

1:100

polished concrete vinyl tiles

SHADOW DIAGRAM

drawing key

bdy boundary ex existing cfc compressed fibre cement

pc vt

Project address 158 West Street Crows Nest, 2065

Xiaoxi TAN SID 311207008

1:100

key

existing shadow unchanged proposed new shadow reduced shadow Note: ex. fences and n. landscape have not been cast for clearity but the ex. terrain of 158 being higher than 156 by 1 metre has been applied.

key

existing shadow unchanged proposed new shadow reduced shadow Note: ex. fences and n. landscape have not been cast for clearity but the ex. terrain of 158 being higher than 156 by 1 metre has been applied.

Drawing ID DA 13

Xiaoxi TAN SID 311207008

1:100

dp n rt

downpipe new roof tile

br f sl

ARCHITECTURAL PROFESSIONAL PRACT Xiaoxi TAN SID 311207008

1:100

drawing key existing shadow unchanged proposed new shadow reduced shadow Note: ex. fences and n. landscape have not been cast for clearity but the ex. terrain of 158 being higher than 156 by 1 metre has been applied.

dp n rt

1:100

drawing key existing shadow unchanged proposed new shadow reduced shadow Note: ex. fences and n. landscape have not been cast for clearity but the ex. terrain of 158 being higher than 156 by 1 metre has been applied.

polished concrete vinyl tiles

SHADOW DIAGRAM

drawing key

bdy boundary ex existing cfc compressed fibre cement

pc vt

Project address 158 West Street Crows Nest, 2065

Xiaoxi TAN SID 311207008

1:100

key

existing shadow unchanged proposed new shadow reduced shadow Note: ex. fences and n. landscape have not been cast for clearity but the ex. terrain of 158 being higher than 156 by 1 metre has been applied.

key

existing shadow unchanged proposed new shadow reduced shadow Note: ex. fences and n. landscape have not been cast for clearity but the ex. terrain of 158 being higher than 156 by 1 metre has been applied.

drawing key

key site boundary

bdy boundary ex existing cfc compressed fibre cement

1:100 drawing key existing shadow unchanged proposed new shadow reduced shadow Note: ex. fences and n. landscape have not been cast for clearity but the ex. terrain of 158 being higher than 156 by 1 metre has been applied.

dp n rt

downpipe new roof tile

br f sl

brick fence skylight

ARCHITECTURAL PROFESSIONAL PRACTICE

t timber td timber deck slo skylight over

pc vt

polished concrete vinyl tiles

Project address

Drawing Name

Drawing Scale

158 West Street Crows Nest, 2065

SHADOW DIAGRAM

1:100 Drawing ID DA 14

Xiaoxi TAN SID 311207008

key

existing shadow unchanged proposed new shadow reduced shadow Note: ex. fences and n. landscape have not been cast for clearity but the ex. terrain of 158 being higher than 156 by 1 metre has been applied.

site boundary

bdy boundary ex existing cfc compressed fibre cement

1 5 8 W E S T S T R E E T, C ROW S N E S T, 2 0 6 5 site boundary

bdy boundary ex existing cfc compressed fibre cement

downpipe new roof tile

br f sl

brick fence skylight

t timber td timber deck slo skylight over

downpipe new roof tile

br f sl

brick t timber existing shadow unchanged fence proposed new shadowtd timber deck skylight reduced shadow slo skylight over Note: ex. fences and n. landscape have not been cast for clearity but the ex. terrain of 158 being higher than 156 by 1 metre has been applied. Project address

ARCHITECTURAL PROFESSIONAL PRACTICE Xiaoxi TAN

polished concrete vinyl tiles

Drawing Name

Drawing Scale

SHADOW DIAGRAM

1:100 Drawing ID DA 17

drawing key

dp n rt

pc vt

Project address 158 West Street Crows Nest, 2065

Xiaoxi TAN SID 311207008

1:100

key

dp n rt

ARCHITECTURAL PROFESSIONAL PRACTICE

158 West Street Crows Nest, 2065

key pc vt

polished concrete site boundary vinyl tiles

bdy boundary ex existing cfc compressed fibre cement

Drawing Name

Drawing Scale

SHADOW DIAGRAM

1:100 Drawing ID

dp n rt

/68

downpipe new roof tile

br f sl

ARCHITECTURAL PROFESSIONAL PRACT Xiaoxi TAN

2.

69/

A R C H I T E C T U R A L P RO F E S S I O N A L P R AC T I C E

Proposed Render:

1.

1. Open Planed Kitchen, Dining and Rare of House 2. South Side of House 3. View from Bed 3

3.

1 5 8 W E S T S T R E E T, C ROW S N E S T, 2 0 6 5

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05

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B ack t o L i fe R u r a l Way o f L i v i n g i n C h o n g q i n g , C h i n a

PHOTOGRAPHY

J a n 2 017 – F e b 2 017 L i v i n g i n t he C ou n t r y s id e

Being a metropolitan, I love returning to old villages, where traditions origin, where daily life simply triggers clever daily design, and where the beauty of nature and earthy lifestyle is truly awe inspiring.

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X i a o x i Ta m m y Ta n Student Architect | Graduate Engineer Mobile: +61413685876 E m a i l : x t a n 2 6 8 3 @ u n i . s y d n e y. e d u . a u

A R C H I T E C T U R E | E N G I N E E R I N G | N AT U R E | C U LT U R E 2015 - 2017

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