Foundations of Design : Representation, SEM1, 2017 M3 JOURNAL - PATTERN vs SURFACE EMRE OZDEMIR
921474 Hana Hhnill + Studio 19
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WEEK 6 READING: SURFACES THAT CAN BE BUILT FROM PAPER IN ARCHITECTURAL GEOMETRY Question 1: What are the three elementary types of developable surfaces? Provide a brief description. The three elementary types of developable surfaces are; cylinder, cones, and tangent surfaces of spare curves. These developable surfaces are special ruled surfaces and each of rulling there is a plane tangent to the surface along the entire ruling. Cylinder is a formed surface which builds out of parallel lines and surface by rolling. The cone generate the cone consists of all lines connecting to main point, also can be generated the surface by a central extrusion as well. Tangent surfaces of space curves are more complex surfaces can be built for polyhedral model.
Question 2: Why is the understanding of developable surface critical in the understanding of architectural geometry? Choose one precedent from Research/Precedents tab on LMS as an example for your discussion. Greenhouse – By Plasma Studio The understanding of developable surface plays a major role in the understanding of architectural geometry reasoning most architectural designs are composed of a series of geometric figures. Geometry deals with size, shape and space of complex. As the ‘Greenhouse; clearly demonstrates that the geometry is a critical manner of shapes and design in terms of architectural geometry such as volume and strength using the principles of geometry. The building is a product of geometric function ‘which wouldn’t be able build this building or any other buildings if didn’t have geometry’. However, geometry is the most importance foundation of architecture in a design concept, shape, size and developable manner.
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PANELLING 2D PATTERN
2d Panelling, Pattern: Wave
2d Panelling, Pattern: Triangular
2d Panelling, Pattern: diamond
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VARIABLE 2D PATTERN
2d variable : circle pattern
2d variable: rectangular pattern
2d variable: mario shape pattern
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3D PANEL TEST PROTOTYPE & TEMPLATE
2d and 3d panels testing prototype and template to be shown.
cutting and follding is clearly shown how 3D panel works out
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WEEK 7 READING: DIGITAL FABRICATION Complete your reading before attempting these questions:
Question 1: What is digital fabrication and how does it change the understanding of two dimensional representation? Digital fabrication is a design revolution, yielding a wealth of architectural invention and innovation which basically means that translation from drawing to building. The understanding of two dimensional representation turns into an architectural material in 3D documented architecturally innovative projects realized though digital design and constructive processes. However, two dimensional powerfully transforms into a structure using of digital data to control the fabrication process as based on architectural geometry.
Question 2: Suggest two reasons why folding is used extensively in the formal expression of building design? Folding is extensively used in the formal expression of building to create a developable surfaces with material gaining stiffness and rigidity, also allow self-supporting, Last but not least, surfaces can be turned into a three dimensional one by increasing the overall structure by geometry. However, folding is materially economical and effective at multiple scales.
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EXPLORING 3D PANELLING
the North-west setting view of the 3d panelling which used 2d and 3d pattern scale to attaced to my terrain. the sense of the triangle 2d shape representing the pointing north and having a same scale triangle gives a symmetrical view and countinuty. Also it creates the movement over the surfaces by having same direction.
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UNROLL TEMPLATE OF YOUR FINAL MODEL
unrolled template surfaces of my 3D and 2D final model which can be build in a geometry manner
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PANELISED LANDSCAPE
The final combination of 2D and 3D landscape of my final design
the close up shot gives depth into the design and the process also clearly emphasizes that how the panelling works with geometry. the lines of the panel shown to give a bit of depth into the developable surfaces.
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APPENDIX
using 2d and 3d panelling tool on my terrain using 10 x 10 grid
my custom 2d panelling surface to be applied on my terrain, and 3d custom shape is also applied over my 2d custom panel surface.
Top view of my design my final design of 2d and 3d panelling surfaces also gives a symmetrical view overally.
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APPENDIX
The processs of cutting and unrolling the template
The tabs are to be connected/glued underside of my design to make to look clean and organise.
final model view of my design
Final design of the model with a quick top and isometric view of the model which demonstrates the symmetrical view and north points are emphasise the direction on colored the 2d surfaces as well 3d shapes in grey color.
11 Annotation. Insert 3-4 images of your work in progress