Cathy Huang // Masters of Landscape Architecture Student

PORTFOLIO CATHY HUANG

Master of Landscape Architecture Student

1

Cathy Huang EDUCATION Present (2020-2022)

Master of Landscape Architecture The University of Melbourne

2019

Bachelor of Landscape Architecture (Honours) with First Class Honours The University of Cape Town

2014-2016 P.O. Box 1013, Kyalami Estates, Midrand Johannesburg, South Africa, 1684 +27 828813810 cathyhuang95@gmail.com

I have a wide range of skills across a number of computer based programmes that I am constantly seeking to improve. Most of my work begins in simple and diagrammatic drawings which I have a strong focus on in order to convey ideas, experiences and moments. The process from sketching to digital representation to modeling forms an important part of my design philosophy, and it has served me well exploring the infinite possibilities of landscape architecture.

SKILLS

AWARDS 2019 Best student in the first year of the Master of Landscape Architecture programme OVP Associates Best Landscape Design portfolio in first year Master of Landscape Architecture Institute of Landscape Architects of South Africa

2018

Architectural Intern | Peter Rich Architects Johannesburg, South Africa -Mothlotho Housing Village Relocation Project, Architecture Design and Urban Planning, in progress Concept and design development Physical models 3D models in SketchUp Conceptual and Design Drawings Council Submission Drawings Working Drawings Site Analysis and Surveying

2017

Architectural Intern | FieldOffice Architects Yilan City, Taiwan -Longshan Elementary School, Architecture Design, completed in 2018 Site and conceptual models -Guanpu Elementary School, Architecture Design, completed in 2019 3D models on Rhino Physical models Construction calculations Assisted with working drawings -YuanShan Cultural Complex, Rejuvenation Project, in progress Design and concept development Physical models Design proposal drawings Site visits Assistance with design tender report and presentation

GRAPHIC

-JiaoXi Urban Revival, Urban Planning, in progress Design and strategy development Site visit and analysis Conceptual models and drawings

3D MODELING + RENDERING

2015

Adobe Photoshop, Illustrator, Indesign, AutoCAD, Hand drawing SketchUp, Hand modeling

OTHER

Quantum GIS, ArcMap, Adobe Premiere Pro, Microsoft Office Suite

LANGUAGES

English, Mandarin Chinese (speaking)

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Bachelor of Architectural Studies The University of Cape Town

WORK EXPERIENCE

Architectural Intern | FieldOffice Architects Yilan City, Taiwan -FieldOffice Portfolio Archive, book publication, completed in 2016 Assisted in production and arrangement of relevant work and drawings compiled for the publication of FieldOffice’s studio portfolio.

CONTE N TS 5-7

0 1 T HE R I S I N G SU N K EN

8-1 1

0 2 N OOR DHO EK BASIN

Robben Island Visitor Interface

Water catchments and waterbody analysis

12-16

0 3 I M HOFF WA LDO R F SC HO O L

17-23

0 4 T YGE RVALLEY HOSPITA L PR EC IN C T

24-26

0 5 P R I NCE S SV LEI W ETL A N D PA R K

27-29

0 6 OT HE R WO R KS

Waldorf School Landscaping Design

Public Hospital Park Design

Ecological Rehabilitation & Detail Design

Architectural Work Models Renders Multimedia Collage Digital Art

3

01 T HE

R IS I N G S UN KEN

ROBBEN ISLAND, WESTERN CAPE, SOUTH AFRICA Tourist Experience Interface | UCT BLA (Hons) Studio II | 2019

With a focus on the WWII relic sites spread across the island, a new visitor experience was imagined for tourists to reveal the many layers of Robben Island (other than the Apartheid era) that are often overlooked by its visitors. The masterplan incorporated alternative transport routes, pedestrian trails and resting areas that provided direct interaction with the relic sites and views across the visitor area. A more contemplative and reflective experience is encouraged through reimagining how the landscape could accentuate the story to future visitors. The project brief was aimed at being thought provoking and interrogating our intuitive responses to a site through instinctive representational methods. These exercises provided us with a basis of principles to integrate into our overall scheme. From this we were able to unlock unconventional ways of approaching a project by first digging into our personal responses embedded in us.

ROADS & MOVEMENT

CIRCULATION & NODES

BUILT ENVIRONMENT

EXISTING VEGETATION

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INT U IT IV E E XP LOR AT ION As our first design project of the course, it was important for us to develop an understanding of intuitive responses to a given site. By using a selected poem and printed aerial map of the site, we were to form a response to them through model making using our own chosen materials. The result was an abstract set of our own design principles extracted from spatial qualities we saw in our models that we would implement in our forthcoming design.

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DE S I G N I N G W I TH V E R BS

To gun turret 1

Amphitheatre

Pillboxes

Underground Bunker

To gun turret 2

Exploration sketches using conceptual model

Plan of Intervention A

Detail Section A

Section A-A’

Section B-B’

Detail Section A

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Section C-C’

Perspective of amphitheatre

From underground bunker

Barracks

Perspective of ramped walkway

Gun Turret 2

To lighthouse

Section D-D’

Section E-E’

Plan of Intervention C Gun Turret 1

Barracks

Arms Magazine

Section F-F’

Section G-G’

From Amphitheatre

To Gun Turret 2 & underground bunker

Plan of Intervention B

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Perspective of sunken walkway

02 NOOR DH O E K

BASI N

NOORDHOEK, WESTERN CAPE, SOUTH AFRICA Landscape Systems Analysis | UCT BLA (Hons) | 2019

This analysis based project sought to practically explore the way we engage with landscape systems in service of achieving goals of sustainability and human well-being. The approach is to view ecosystems in an urban environment as ecological infrastructure, evaluate ecosystem functioning and processes in terms of ecosystem services. Since the start of urbanisation, the slopes surrounding Noordhoek and wetland systems being fed by mountain catchments has been under immense strain. There has been loss in natural ecosystems, habitats and biodiversity that once thrived in the area. This project seeks to evaluate the condition of the existing waterbodies of the basin and offer a solution in remedying these impacts.

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9

10

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03 IMH O FF

WALD O RF SC H O O L

KOMMETJIE, WESTERN CAPE, SOUTH AFRICA School landscaping design | UCT BLA (Hons) Studio III | 2019

The site for the expansion of a Waldorf school lies in the southern Cape Peninsula with an ecologically contested area. The land is currently undeveloped but has gone through high degrees of disturbances such as alien invasives, pine plantations and farming activities. The preservation and restoration of the remaining communities of rare and threatened species was prioritised. An important ecological corridor running through the site was an important limitation and challenge to design around. The main intention of the project was to accentuate the existing qualities of the site to enhance a wide range of spatial experiences to provide a stimulating learning and playing opportunities for the young students under the age of thirteen. Site Analysis

Perspective Exploration of School Entry Court Design Principles

A new experience through the school was imagined for the students to maximise their time in outdoor spaces to allow them to interact more with their immediate surroundings. A set of carefully thought out principles was used as a design guide in order to create an educational environment in line with Waldorf school teaching methods.

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Conceptual diagrams

Site Plan

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THE O U T D O OR C L ASSRO O M The driving concept was to utilise the Waldorf schooling principles and curriculums as a design cue for the different learning environments which shift between high energy spaces, focus learning and wayfinding as well as peace and reflection. Different aspects of the syllabus such as. Greek & Norse mythology, Ancient Persia and Egypt etc. were indicators of the type of activity that would be accentuated by the surrounding environment using topography and vegetation. The goal is to extend the learning space beyond the walls of the classroom and into the outdoors.

Section A-A’

Laterite surface with sandstone edging

Brick lined water channels

Wildlife Attractors

Tecoma capensis

Section B-B’

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Coleonema album

Leonotis leonurus

Plants that attract insects and butterflies to increase child interaction with nature & surrounding ecology

Low shrubs

Carissa bispinosa

Metalasia muricalta

Salvia africana

A collection of small shrubs that create a boundary to limit movement to the pathway

Section C-C’

Perspective Exploration of Playcourt

E XIST ING S IT E CONDIT IONS

Section D-D’

Treated timber balustrades Timber decking supported by treated timber plinths

Colour

Gazania krebsiana

Serruria florida

High Shrubs

Erica baueri

Colourful plants that add a pleasing and playful atmosphere to the child playspaces.

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Grewia occidentalis

Myrsine africana

Portulacaria afra

Large shrubs that create a strong screen and boundary to demarcate zones of play

The existing site was a mix of different environments defined by the overhanging stone pine canopies, rocky outcrops, gentle undulating slopes and existing vegetation. This was an opportunity to create a combination of different learning environments. Planting becomes a big role in defining spaces and stimulating the interaction the students have with nature as well as creating pleasant places to inhabit.

Perspective Exploration of Kindergarten entry court

Conceptual Planting Plan

Timber pergola and lattices to support climbers and provide shade

Timber decked veranda

Stone paved pathway

Decidious Trees + Wildlife Attractors

Celtis africana

Plantanus x acerifolia

Knifophia uvaria

Dietes grandiflora

Decidious trees that will provide summer shade and winter sun in playground areas & plants that attract insects and bees

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Detail Section A

Feature Tree + Colour

Erythrina caffra

Searsia lancea

Selagio villicaulis

Barleria obtusa

Beautiful trees with special characteristics to draw attention and colourful plants to compliment them at the base

Edible Fruit + Fragrant Plants

Carpobrutus deliciosus

Dovyalis caffra

Maytenus Pelargonium Agathosma Helichrysum procumbens capitatum ovata spendidum

Plants that bear fruit and have fragrant smells to encourage child interaction by picking and touching surrounding plants

Detail Section B

Climbers

Thunbergia alata

Rhoissisus tomentosa

Plants that can climb up timber pergola structures to provide shade and threshold experiences

Medium Shrubs

Searsia crenata

Helichrysum cymosum

Plumbago auriculata

Medium sized shrubs that provide sufficient screening of buildings

04 T YG E RVA LLE Y

H OSPI TA L PREC I NC T

TYGERVALLEY, WESTERN CAPE, SOUTH AFRICA Hospital park design | UCT BLA (Hons) Studio III | 2019

Wedged between suburban life and the upcoming commercial business hub of the northern corridor in Cape Town, the 40 hectare site was historically a mining site for a brick factory. A quarry, patches of remnant vegetation and eucalyptus avenues are what remain of the site today where a development plan for a new hospital is in progress. A new green interface for the anticipated hospital development was imagined in hopes of strengthening the existing ecological corridor as well as providing key public domain facilities to the new and existing communities in and around the site. Drainage and Waterbodies

A pre-existing drainage line was used as a design cue, with a new urban creek woven around the built structures and hard landscaping. New pedestrian paths emanate from the form of the creek, structuring movement and use and strengthening the relationship between indoor institutional space and the natural. FR AME WORK VISION Acknowledging Future Developments & Growth Accessibility & Catalysts For Opportunities Enhance Spatial Quality And Space Maintaining Important Ecological Remnants

Endangered Swartland Shale Renosterveld Cape Flats Sand Fynbos Eucalyptus Tree

Historical Vegetation

Recreational Commercial Residential

Anthropology

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Masterplan

Landscaping Design Buildings Parking Lot

Motorised Vehicles Patients/Staff Pedestrians

Public Semi-Public

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A

D'

B

E

B' D C

C'

E'

Design Proposal Plan

Section A-A'

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A'

DE S I G N P RI N C I PLE S

Medicinal Garden

Retention Pond

Blurring of Boundaries Section B-B'

Medicinal Garden

Response to Surroundings Raingarden

Section D-D'

Functional Zoning

Pedestrian Walkway & Bikeway

Plaza Seating

Raingarden

Movement and Nodes

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Section E-E'

Plaza Seating

Healing Gardens

Section C-C'

Perspective of Medicinal Garden B IOSWALE

Watsonia augusta

Juncus capensis

Elegia tectorum

Orphium frutescens

Schotia brachypetala

Bark, sometimes roots

Section H-H'

H I G H SC REENS

LOW SCR E ENS

COLOUR FUL/AROMATIC

REN OSTERVELD Searsia augustifolia

Anthospermum aethiopicum

Aspalathus species

Carpobrutus edulis

Gymnosporia buxifolia

Euryops thunbergii

Clivia miniata

Leonotis leonurum

Chrysanthemoides monilifera

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Asparagus rubicundus

Whole Plant

Agathosma gladulosa

Leaf juice/pulp

Leaves and stems

Stachys aethiopica

The predominant vegetation type in the Swartland was historically renosterveld, an evergreen shrubland which mainly comprises species in the daisy family with a wealth of grasses, annuals, herbaceous perennials, and an extraordinary array of geophytes. Renosterveld is found on richer soils such as shalederived clays. These richer soils, which are so wellsuited to wheat and deciduous fruit production, are the primary reason for the wholesale destruction of this lowland habitat. The South African Red List (2017) notes that Swartland Shale Renosterveld contains the highest concentration of threatened plant species: 214 species in total, 25 of which are endemic to the

Perspective of Plaza Seating

WS U DS ST R AT EGY Drainage system will collect stormwater runoff and 'polish' them to a cleaner state in constructed wetlands consisting of two different planted basins with different functions. VEGETATED BIOSWALE: Consists of reed beds to slow the flow of water, encouraging the settlement of suspended particles and take up phosphate and nitrogen from the polluted stormwater. Collects water from roof runoff and hardlandscaped elements. 720

450

490

3500

2000

RETENTION BASINS: A shallow pond that is densely vegetated, facilitating the removal of residual phosphates and nitrates.

50x50mm timber batton fixed to brick wall

timber cladding brick planter

720

450 490 150x50mm timber slats

3500

2000 Native wetland margin plants to absorb pollutants from runoff and attract wildlife

100x50mm timber post timber batton 50x50mm to support battons fixed to brick wall

timber cladding brick planter

Native wetland margin plants to absorb pollutants from runoff and attract wildlife

30mm timber decking

ECOLOGICAL BUFFER ZONE: Will be maintained to provide habitat for fauna and flora, especially the Swartland Shale Renosterveld vegetation group. It will also reduce erosion on slopes and protect waterbodies from polluted run off while also enhancing urban landscape.

200

450

150x50mm timber beam fixed to brick wall with galvanised steel angle bracket

450

150x50mm timber beam 150x50mm timber slats fixed to brick wall with galvanised steel 30mm timber decking angle bracket 100x50mm timber post to support battons

WEIRS: Aid in the aeration and oxygentation of water by creating level drops.

Reinforced concrete foundation to eng. spec

Reinforced concrete foundation to eng. spec

Detail Section A ’

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150x150mm treated timber post rammed into earth

Vegetated bioswales situated between the building and plaza area not only filters incoming urban runoff before it flows into the retention pond but also creates new resting environments within thresholds where patients and visitors can interact with nature.

150x150mm treated timber post rammed into earth

3145 2100 3145 2100

250x30mm timber post

Steel wire cable to support climbers

2880

250x250mm timber block to brace timber posts 250x30mm timber post

galvanised steel ankle bracket Retaining wall to eng. spec

2880

250x30mm timber slat250x250mm timber to form functional surface block to brace timber posts

15x150mm round head bolt

250x30mm timber slat 8mm thick galvanisedtosteel formstrap functional surface cast into concrete block galvanised steel ankle bracket

60

cement grout

600

8mm thick galvanised steel strap cast into concrete block

1000

60

cement grout

precast concrete footing

drainage weephole

The design aims to replicate the natural drainage rather than carrying stormwater away in pipes and canals as quickly as possible. By dealing with pollution and runoff on site, SUDs can help lower flow rates, improve water quality, increase groundwater recharge and create an overall 'greener' environment for wildlife and local residents.

1000

Steel wire cable to support climbers

Roadside swale aids in filtering runoff from vehicle and pedestrian access routes which often have a high concentration of litter and hydrocarbons. Porous paving can be implemented to aid in groundwater infiltration

600

Retaining wall to eng. spec

15x150mm round head bolt

100mm G5 compacted soil fill

precast concrete footing

100mm concrete surface bed

100mm G5 compacted soil fill

Native plants with deep root systems that absorb pollutants

100mm concrete surface bed

geotextile layer

Slope

Side Slope ’

granular material drainage weephole 100mm Ø soil drain geotextile layer

Exceedence level

granular material 100mm Ø soil drain

Trench depth

Perforated pipe connecting to basin or retention pond

Detail Section B ’

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Bioswale Seating Area

Length Base width

Pedestrian Avenue Bioswale Detail Diagram

P HYS I C A L M ODEL Materials used: Triplex card Corrugated cardboard Cork sheets Balsa wood Acetate

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05 PRI N CES SV LE I

COM M UNIT Y PA RK

RETREAT, WESTERN CAPE, SOUTH AFRICA Ecological Rehabilitation & Detail Design | UCT BLA (Hons) Constructing Landscape Systems | 2019 This course’s intention was to expand our knowledge on the constructs of the ecological layer of a site and start thinking about implementing design through technical means. A semi derelict wetland park with water quality issues and lack of community ammenities was the chosen site for a rehabilitation proposal. The main source of water into the wetland area was to be treated through a designed pond system that will rehabilitate the ecological status of the area. The reimagined space includes a new plaza space for community gatherings and informal trading, a parkland area where visitors can enjoy the natural surroundings, as well as a playpark that serves exercising needs and facilitates safe play spaces for children.

1 E X PER IEN C E Return of sense of community and relationship with natural systems. Using water as the main theme with a touch of local culture, the design should give nearby residents as well as those residing in the Cape Flats plenty of opportunities to engage and be apart of community while taking in the vlei area.

2 EN V IRONM E N T Improving water inflows and restoring the quality of water in the vlei. Creating a buffer belt of constructed and natural wetland areas to collect and purify stormwater runoff from surrounding urban areas as well as catchment inflows. Ultimately reusing this treated water as irrigation and replenishing the vlei wetland.

3 ECOLOGY Assisting natural recovery process and protecting sensitive habitats. Using existing wild reed beds and vegetation as a foundation, the design should utilise minor earth shaping and careful planting of local trees, shrubs, and aquatic plants to help restore shelters and habitats for aquatic life, birds and amphibians.

4 SAFET Y Creating a safe haven for all communities to enjoy without the risk of illegal activities. Establishing areas with good surveillence and visibility as well as adding buffers between the Prince George Drive and areas of high activities- especially with children. Fencing implemented to control access. 24

Hardscaping Proposal Site Plan

WSUDS & WETLAND PLANTING WETLAND MARGIN

HIGH MARSH

LOW MARSH

Orphium frutescens

Ficinia nodosa

Mariscus tabularis

Juncus effusus

Juncus lomatophyllus

Berula erecta

Knifophia bruceae

Elegia tectorum

Prionium serratum

Wachendorfia thyrsifola

Isolepsis prolifera

Spiloxene aquatica

Mostly dry and affected by stormwater

Slightly seasonal, mostly dry and affected by stormwater

Maximum and average water levels are dependent on season. Usually has water and slightly affected by stormwater

MICROPOOL

Vallis spiralis

Potamogeton pectinatus

Aponogeton distachys

Permanently wet and has an outflow or overflow structure

< 9 MONTHS HYDROPERIOD

<12 HOURS HYDROPERIOD

12 MONTHS HYDROPERIOD

>12 MONTHS HYDROPERIOD

AVERAGE 50MM MAX. 100MM

AVERAGE 100MM MAX. 200MM

AVERAGE 300MM MAX. 500MM

AVERAGE 1000MM MAX. 1500MM

Velocity Reduction Infiltration Filtration

Velocity Reduction Infiltration Filtration Sedimentation

Retention Infiltration Filtration Sedimentation

Retention Infiltration Filtration

REMOVES: Suspended solids Sediments

REMOVES: Suspended solids Phosphorous Metals Hydrocarbons

REMOVES: Nitrogen Metals Hydrocarbons

FUNCTIONS Nitrogen & phosphorous uptake Deposition of algae Hydrocarbon removal

Water Quality Assessment & Strategy Due to the amount of Nitrogen and Phosphorous in Princessvlei, the water is classfied as eutrophic during the wet season and hypertrophic in the dry season. The ammonia concentration and lack of dissolved oxygen in the water also has a chronic toxicity effect on the water during dry seasons when the vlei area would be used for recreation. As it stands, the water should only be used for non contact recreational activities picniking and scenic appreciation of the water. Therefore the water should be directed through the filtration wetland for as long as possible in order to allow sedimentation to take place and most of the nutrients to be absorbed. Small weirs are implemented in between to allow for oxygentation of the water using level drops and this will also increase the dissolved oxygen levels in the water. The water will ultimately reach a deep pond adjacent to proposed playpark where visitors will have the opportunity to interact in contact recreational activities without any health risks.

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Wetland Margin 0-100mm

High/Shallow Marsh 100-200mm

Wetland Margin

Low/Deep Marsh 0-100mm 300-500mm High/Shallow Marsh 100-200mm

Micropool/Deep Pond Low/Deep Marsh 1000-1500mm 300-500mm

Micropool/Deep Pond 1000-1500mm

DESIGN DETAILING 0

56

15

9520

00

86

0

33

83

5

+1.500

2488 0 30

54

36910

9520

+3.500

+0.500

+3.900

0 02 10

+0.300

10430

20

2300

20

95

C'

95

+1.700

+0.300 77060

0

TERRACED PICNIC AREA

+1.400 +1.700

2000

1800

+3.000

+1.500

+1.100

1600

+1.100

+0.500

1800

10265

+0.800

+1.500

+3.500 +0.500

C

12700

54800

PLATFORM

3480

79

10

2925

4000

+0.800 2500B

+1.900

+1.400

A

A'

+1.700

2835

15000

00

16000

5

1033

+2.000

+0.550

45

50

+2.100 Area 4 +2.000 T.O Wall 2500

Area 3

0

00

+2.600

13400

16730

+1.100

PLAYPARK

T.O Wall 2500

65560

15000

700

+2.000

+1.800

0

15 00

+2.200 (highest end)

0

15

12

Area 1

B' 25000

11225

2000

7600

T.O Wall 4000

00

+1.500

00

340

+2.000

100

12245

0

12

12

13

30

0

3000

42800

Detail | Pergola Structure

1000

+1.500

8000

0

14

0

29

700

5

+0.850

5

62

14

+2.500 +2.800

62

4000

14

+0.550

50

24

12930

400

Area 2

00

2500

50

00

1000

63

0

+2.000

+1.100

1000

12400

12350

4000

+3.300 +3.500

+3.800

PEDESTRIAN ENTRY

29000

10865

24620

3750

+0.700

3000

D

D'

PLAZA

11860

55415

Detail C | Pergola Structure Supports

WC

0

56

15

+3.500

2488

0

9520

36910

9520

+0.400

2000

+1.500

Terraced Picnic Area Sketchplan

0

5

10

20

30

4000 50x150mm timber beam

40m

round head bolt 1000

Bidem Geo fabric liner on inside edge

Kaytech Multicell Hexagonal geotextile for soil stabilisation Topsoil gathered from site

50x50x1200 mm timber battens treated with H4 supporting timber decking. Fixed to beam with steel anchors.

Planting as per planting plan

1000x1000x2000mm welded galvanised mesh gabion basket filled with light grey gabion rock fill finish

1000

+2.000

8mm thick galvanised steel strap cast into concrete block

15mm diameter galvanised steel lattice

20 x 100 x 1000mm exterior hardwood timber decking fixed to treated timber battens by counter sinking galvanised wood screw at batten spacing and filling counter-sink gaps with putty 76x220mm timber board to hide connections

150x150mm treated timber post

15x150mm round head bolt cement grout

topsoil +2.100

terracotta brick paving with herringbone bond

exposed facebrick finish

+2.100

11° fall

30mm sand binding

Compacted soil fill to eng. spec

Detail | Gabion Retaining Wall Planter

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concrete foundation and ground beam to eng. spec

Detail A | Pergola Structure

100mm thick G5 compacted fill subsurface

3145

topsoil gathered from site

35mm thick wooden trellis for climbers fixed to 150x150mm timber posts with wood screws

60

Concrete exposed aggregate edge

76 x 220 x 2000mm laminated timber beams fixed to concrete with galvanised steel anchor

1500

30mm sand binding

300

250

+3.500

400

1000

Brick paving with herringbone bond

300

750

500

0 6 OTHE R

WO R KS

Sectional Perspective for Merchant House Project Sketch Up, AutoCAD, Photoshop, 2016, Academic

Model of Eco House Project Balsa Wood, Foam Board, Wire, Lichen, 2015, Academic

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Model of Straatwerk Project Triplex, Balsa Wood, Foam Board, Wire, Lichen, 2015, Academic

Perspective of Woodstock Clinic Project Sketch Up, Photoshop, 2016, Academic

Model of Yuan-Shan Cultural Park Foam Core, Timber Dowels, Acrylic Paint, Sponge, 2017, Internship @ FieldOffice Architects

Model of Guan Pu Elementary School Foam Core, Balsa Wood, Acrylic Paint, 2017, Internship @ FieldOffice Architects

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Render of Lawrence Halprin’s Lovejoy Park Revit, Photoshop, 2019, Academic

Sectional Collage Exploration Freehand Drawing, Photoshop, 2019, Academic

Perspective Collage Exploration Freehand Charcoal Drawing, Photoshop, 2019, Academic

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Personal Digital Art Paint Tool SAI, Wacom Pen Tablet, 2018

Perspective Collage Exploration Freehand Charcoal Drawing, Photoshop, 2019, Academic

Personal Digital Art Paint Tool SAI, Wacom Pen Tablet, 2018

CATHY HUANG CATHYHUANG95@GMAIL.COM

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