Digital Design - Module 02 Semester 1, 2018 Fangchao Wu 876727 Alex Wong Studio 10

Week Three

Reading: Kolerevic B. 2003. Architecture in the Digital Age

Kolerevic described three fundamental type of fabrication techniques in the reading. Outline the three techniques and discuss the potential of Computer Numeric Controlled fabrication with parametric modelling. (150 words max)

The three fudamental fabrications are two-dimentional fabrication, subtractive fabrication and addictive fabrication. Two-dimensional fabrication is the technique that marterials would be cut only on X and Y axies. Subtractive is that a solid would be cut into a desired form. It is usally on X, Y and Z axies. Sometimes there is even more axies through cutting. Addivtive fabrication is that slicing the solid to two dimensions X and Y, then fabricated the solid. By the parametric modelling, architects can easily and accurately make the digital design.

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Week Three

Surface Creation

{50,0,150}

{0,75,150}

{25,150,150}

{75,150,150} {0,25,0} {0,100,0}

{75,150,0}

{50,150,0}

{100,0,150} {25,150,150}

{125,150,150 } {150,0,150}

{0,100,0}

{150,100,0} {75,150,0}

{100,0,0}

I just use the deconstruct brep to divide the cube to lines, then use list item to choose the proper line and then use four lines to create a new surface.

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Week Four Panels & Waffle

Suing 3D panels for the surface which is not flat and using 2D panels for the other one.

One side is very closed while the other has a long distance.

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Week Four

Y4 Y12

Y5

Y6 Y1

Y13 Y16

Y15

Y14

Y10

Y8 5

Y17

Y11 Y7 Y6

Y4 Y5 Y9

Y3

Y2

Y8 Y3

Y1

Y0 Y2

Y0

I used red coulor to show the the lines that should not be cut.v

Y7

Laser Cutting

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Week Five

{350,-210,0}

Comment on the process of scripting and designing your boolean form. Label your images here. Use white colour background in Rhino only.

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Week Five

Isometric

This is created by the geometry looks like a crossing from three dimension. It looks pretty good on this.

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Lofts

1.1

1.2

1.3

Key

1.4

{0,0,0}

{50,0,150}

{0,75,150}

{125,150,150 }

{100,0,150}

Attractor / Control Points (X,Y,Z) Attractor / Control Curves

{25,150,150}

{25,150,150}

{150,0,150}

Grid Points

{75,150,150} {0,25,0} {0,100,0}

{0,100,0} {50,150,0}

{75,150,0}

{150,100,0}

{75,150,0}

{100,0,0}

Paneling Grid & Attractor Point

{Index Selection}

{Index Selection}

{Index Selection}

{Index Selection}

2.1

2.2

2.3

2.4

{60,30,0} {-503,-112,0}

{40,30,0}

{35,75,0}

Paneling

{Attractor Point Location}

{Attractor Point Location}

{Attractor Point Location}

{Index Selection}

3.1

3.2

3.3

3.4

Task 01 Matrix I just choose the

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Lofts

1.1

1.2

1.3

Key

1.4

{0,0,0}

Attractor / Control Points (X,Y,Z) Attractor / Control Curves Grid Points

{-42,-76,0}

{117,221,0} {94,-129,0} {350,-210,0}

Paneling Grid & Attractor Point

{Index Selection}

{Index Selection}

2.1

2.2

{171,-87,0}

{274,102,0}

{253,13,0}

{Index Selection}

{Index Selection}

2.3

2.4

{-42,-76,0}

{94,-129,0}

{350,-210,0}

Paneling

{Attractor Point Location}

{Attractor Point Location}

3.1

3.2

{171,-87,0}

{117,221,0}

{253,13,0}

{274,102,0}

{Attractor Point Location}

{Index Selection}

3.3

3.4

{-42,-76,0}

{94,-129,0}

{350,-210,0} {171,-87,0}

{253,13,0}

{117,221,0} {274,102,0}

Additional openings for the pavilion to get more sun lights in the inner space.

Task 02 Matrix This creates a big inner space and openning could be used for further development.

Three main entrances for the pavilion

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Week Six

Final Isometric Views

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Appendix

Process

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Appendix Process

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Appendix

Process

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Dd module 02 journal template
Dd module 02 journal template