2021
STANLEY ZHI WEI YEOH
PROGRAM / PROFICIENCY LEVEL
born in Wellington, New Zealand
AUTO-CAD:
Advanced (2+ years experience)
SURBANA INTERNATIONAL CONSULTANTS, ABU DHABI: VOLUNTEER TRAINEE
on January 9th 1993
REVIT:
Basic
May 2014- Apr 2014:
RHINOCEROS 5.0:
Advanced (1+ year experience)
-Engaged in several project construction site visit inspections
Intermediate
-Prepared post-tender documents and presentations
SKETCHUP:
Advanced (1+ year experience)
-Attended client and consultant presentations for urban master planning project
ADOBE PHOTOSHOP:
Advanced
DP ARCHITECTS, SINGAPORE: ARCHITECTURAL TRAINEE
ADOBE INDESIGN CC:
Advanced
Dec 2012- Feb 2013:
MODELING / LASER CUTTING:
Advanced
Nationality: Australian : stan_yeoh@hotmail.com : 0432395622 :Unit 30 2-22 Breanne Place Keysborough, Victoria Australia 3173
-V-RAY PLUG-IN
SOFTWARE KNOWLEDGE Autodesk AutoCad Bentley Microstation Sketchup
WORK EXPERIENCE
Rhinoceros 5.0 -Grasshopper Plugin -V-Ray Plugin Adobe Photoshop
VBG , CADCAM SUPERVISOR Aug 2019- Today:
Adobe Indesign
-Managed a team of 4 CAD and CAM drafters from Manila, Philippines
Microsoft Office
-Liaisoned with building supervisors from several top builders in Victoria
-Microsoft Word -Microsoft Powerpoint REFERENCES Peter Ryan Peter Ryan Architects CEO (Peter Ryan Architects)
-Contributed to overall design scheme for 1st & 2nd commercial oors, designing the room connguration in accordance to GFA requirements -Conducted consultation sessions with Quantitative Surveyors, Structural engineers, Mechanical + Electrical engineers as well as the local urban building authorities to coordinate changes -Learned to design according to relevant building bylaws in compliance with governing bodies of building control in Singapore
EDUCATION
-Coordinated the manufacture of stone products from site liaison stage to production MASTERS OF ARCHITECTURE, UNIVERSITY OF MELBOURNE PETER RYAN ARCHITECTS, ARCHITECTURAL GRADUATE Sep 2017-Oct 2018: -Detailed construction documentation of large-scale Commercial and Office projects
Jul 2014- Jul 2016: -Graduated with Masters of Architecture -Subjects Covered:
pxr@p-r.com.au
-Coordinated changes in documentation through extensive consultant revisions
-Design Studio D: Concept of Dwelling (Tutor: Justyna Karakiewitz)
+61 409 169 091
-Preparation of presentation materials, including 3D modeling and V-Ray rendering
-Design Studio E: Machining Aesthetics (Tutor: Paul Loh)
-Participated in consultant shop drawing reviews and detailed product research
-Design Thesis: Knitlock Studio (Tutor: Philip Goad)
Philip Goad Design Thesis Tutor (University of Melbourne) p.goad@unimelb.edu.au +61 3 8344 6426 Paul Loh
-Tectonic Grounds (Tutor: Janette Le & Mond Qu) CADCON ENTERPRISES PTY LTD, ARCHITECTURAL DRAFTSMAN Jun 2017- Sep 2017:
BACHELOR OF ENVIRONMENTS, UNIVERSITY OF MELBOURNE
Design Studio Tutor
-Drafted civil drainage and sewerage drawings to be sent to council
(University of Melbourne)
-Prepared working drawings abiding by ResCode and council requirements
-Graduated from Bachelor of Environments majoring in Architecture (2014)
-Conducted on-site residential surveys, documenting datum levels and site dimensions
-Subjects Covered:
paul.loh@unimelb.edu.au +61 3 9035 302 Bowen Leng CADCAM Supervisor (VBG) bleng@vbgranite.com.au +61 425 611 006
-Environmental Building Systems BESTWAY GROUP PTY LTD, ARCHITECTURAL DRAFTSMAN
-Construction Design
Apr 2016- Jun 2017:
-Construction Analysis
-In charge of preparing planning permit drawings and applications -In charge of amending residential plans and details for council approval -Prepared working drawings abiding by ResCode and council requirements
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CURRICULUM VITAE
Feb 2011- 2014:
PETER RYAN ARCHITECTS: SELECTED WORKS
PROFESSIONAL EXPERIENCE
6-9
BESTWAY GROUP PTY LTD: SELECTED WORKS
WORK EXPERIENCE
10-15
DESIGN STUDIO: AIR
WYNDHAM GATEWAY PROJECT
16-21
MASTERS STUDIO: TARMAC
TULLAMARINE AIRPORT TERMINAL
22-27
MASTERS STUDIO: PARADOX OF TECHNICAL DEVELOPMENT
CONCEPT OF DWELLING
28-33
CONSTRUCTION WORKSHOP: HIGH RISE CONSTRUCTION PROJECT
APPLIED CONSTRUCTION
34-39
MASTERS STUDIO: MACHINING AESTHETICS
MAKERS FORUM
40-47
ARCHITECTURAL THESIS: KNITLOCK STUDIO
RE-DESIGNING PHOLIOTA
48-57
ARCHITECURAL INTENSIVE STUDIO: 1:1 MATERIAL APPLICATIONS
TECTONIC GROUNDS
58-65 CURRICULUM VITAE
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PROFESSIONAL EXPERIENCE: PETER RYAN ARCHITECTS This project is the 3rd Stage of an office development in Scoresby which consists of two 8,000sqm office buildings set within extensive urban landscape spaces. The 2 office buildings are situated to accentuate the pedestrian circulation through the diverse open green spaces that promotes relaxation and leisure for the office workers. It also emphasizes the connection between the existing Stage 1 and 2 of the commercial precinct.
Xref .\16016-plan-GF-core-crpk-spst.dwg .\16016-plan-GF-land.dwg .\16016-plan-00-road.dwg
Xref ..\..\..\..\..\15015\15015 4 Deliverables\15015 4 Construction Drawings\Drawings\Xref\15015-sect-gym.dwg
As a graduate architect, I contributed in the documentation of the 2 4-storey office developments, including an extensive underground carpark that spans the entire development. I was also heavily involved in the detail sections at different scales as well as the development of a multi-storey carpark situated in between the two office buildings.
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FACADE SECTIONS - LOBBY DETAILS Facade sections detailing different edge conditions of the double height lobby and first floor tenancy
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CEILING CONNECTION - PODIUM LOBBY
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CEILING CONNECTION - SOUTH EDGE
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FLOOR EDGE CONDITION - GROUND FLOOR
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SOUTH FLOOR EDGE - GROUND FLOOR
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FLOOR EDGE CONDITION - BASEMENT
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SOUTH FLOOR EDGE - BASEMENT
CEILING CONNECTION - TENANCY
SOUTH FLOOR EDGE - TENANCY
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WORK EXPERIENCE BESTWAY GROUP PTY LTD
RESIDENTIAL PROJECT HUNSFORD AVE - 2 UNITS
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RESIDENTIAL PROJECT- WORKING DRAWINGS WILMA AVE - 6 UNITS
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Full online publication: https://issuu.com/stanleyyeoh/docs/studio_5_booklet_indesign.compresse
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UNDERGROUND INTERVENTION
SECTION PERSPECTIVE
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1:100 SCALE PHYSICAL MODEL
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MAKERS FORUM
MACHINING AESTHETICS v.3.0
This project explores the future of making and how we as architects can adapt to the ever changing ecology of manufacturing and industry. Utilizing architecture to potentially improve and evolve the process of making at an urban and internal scale. Through an established ruleset, this journal documents a process of techniques that aim to integrate space, function, urban typology and the role of the maker. Systematic rotation of grids and contoured surfaces are investigated to inform envelope and spatial qualities for a proposal that facilitates a network of makers that can compete at a global scale. Ultimately this project looks at breaking the boundaries of conventional architectural language and urban morphology to enable the integration of industry and education. As a result, creating a new breed of makers that are able to simultaneously develop and apply new technologies and processes to further evolve the practice of manufacturing and making.
Full online publication: https://issuu.com/stanleyyeoh/docs/541115_stanley_yeoh_final
PRIMARY ATTRACTOR CRV CRV PRIMARY ATTRACTOR
ATTRACTOR CURVE FOLLOWING ATTRACTOR CURVE FOLLOWING CIRCULATION CIRCULATION
PRIMARY ATTRACTOR CRV CRV PRIMARY ATTRACTOR
ORIGINAL SITE TOSITE CREATE SURFACE ORIGINAL TO CREATE SURFACE
CONTOUR CREATED BY ATTRACTOR CONTOUR CREATED BY ATTRACTOR CURVECURVE
SECONDARY SECONDARY ATTRACTOR CRV ATTRACTOR CRV
CONTOUR APPLIED TO SITE CONTOUR APPLIED TO SITE
SECONDARY ATTRACTOR CURVE TO SECONDARY ATTRACTOR CONNECT EDUCATION WITHCURVE TO CONNECT EDUCATION WITH INDUSTRY INDUSTRY
APPLIED TO SITE CONDITIONS APPLIED TO SITE CONDITIONS
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MERGING OF CIRCULATION CONTOUR AND EDUCATIONAL CONTOUR
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BASIC MASSING OF CONTOURS
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WORKSHOP PERSPECTIVE RENDER
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PLASTER CAST MATERIAL EXPERIMENT
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EXTERIOR PERSPECTIVE RENDER
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1:50 SCALE PLASTER CAST MODEL
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INTENSIVE STUDIO : TECTONIC GROUNDS Tectonic Grounds is an intensive summer studio that is completed as a class which explores digital fabrication and it’s potential to push and challenge the structural integrity and design flexibility of a single material. The material in question that we used was polypropylene, which came in a limited range of thicknesses. By using a combination of digital fabrication techniques, physical modeling experimentation as well as rapid laser cut 1:1 prototyping we were able to explore different creative processes that expands on the role of drawing, construction and hands-on making that is available to us today because of technology.
KABUTO
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SPLITTING UP : DISTORTION The studio began by splitting the class into groups of five, from there each group is to experiment and prototype their own design that would be placed in the Andrew Lee King Fung Gallery in the University of Melbourne MSd building. The design brief was to have a self supporting structure that is able to interact with the users using an Arduino board. Our Ou group began with the physical prototyping to try and test the capabilities of the material. Using different methods, we found that the polypropylene was too weak to be used as a span, but we found that in tension, against other pieces, it became strong enough to withstand compression forces. The diagrams shown elaborate the experimentation processes and the different shapes that were used. and how each worked with different forces applied to them.
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FINDING STABILITY : TARMAC We were able to settle on a shape, finding that symmetry helped in equalizing the forces along each of the members, since through testing we found that the material bent so much, we decided to rivet three pieces back to back so that it create a sort of column and in turn, tube like spaces in between that could allow for utilities and wiring.
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By testing the perfect length and the limitations of how far each member can bend we were able to find a single span that could be mass produced so that a distorted massing could be created. The idea behind the massing revolved around swarming and also a pentagonal base.
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COMBINED EFFORT : FINAL DESIGN Utilizing our previous design, were able to come together as a class to optimize and improve on each member, so that the module had more structural integrity. additionally the idea of an outer and inner shell enabled the design to take more of a secure and intimate form. Moving on, were then concentrated on the interactive element of the design utilizing Arduino. For this component, we focused on movement, of the users, especially as the users would be moving through and around the design. To do this, we linked a web-cam to Arduino and coded it to react to the amount of movement captured, this in turn would relay the information to a set of LED lights that would react accordingly.
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MODULE
INNER SHELL
OUTER SHELL
FOOTINGS
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