m3 journal

Foundations of Design : Representation, SEM1, 2018 M3 JOURNAL - PATTERN vs SURFACE Xuanrong Wu

952040 Emmanuel Alexander Cohen Stiudio 7

1

WEEK 6 READING: SURFACES THAT CAN BE BUILT FROM PAPER IN ARCHITECTURAL GEOMETRY

PANELLING PATTERN

Question 1: What are the three elementary types of developable surfaces? Provide a brief description. (Maximum 100 words) The three main elementary types of developable surfaces include cylinderes surfaces, cones and tangent surfaces. There is the rolled up shape with parallele lines in cylinderes surfaces. The cones have the vertex and a circule base, and the vertex and base are connected by many lines. The tangent surfaces are formed by tangent lines, which usually uesd in polygons. 2d Panelling, Pattern: Triangular

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. (Maximum 100 words) The understanding of developable surface is critical in the understanding pf architectureal geometry because it helps people to understand the architect in real world. It is easily to know the combination of the objects and shapes. The complex shapes can be much easier designed in understanding the developable surface. For example, the simple triangle shapes were developed in the “Greenhouse�.

2

3D Panelling

3D Panelling

3

VARIABLE 3D PATTERN

3D PANEL TEST PROTOTYPE & TEMPLATE 1

0

11 8

3 2

15

16

5

17

4 4

6

strip13

12 12

10

11

15

9

13

12

10

1

11

8 18

19

7

11

18 14

9

7

20

13

14 19

10

16

6

8

21

strip38

8

18

11

9

18

18

17 9

7 strip1

8

3

4

11

4

10

20 11

14

12 6

14

2

13

16

20

15

18

12

14

19

three types of square pattern

19

1

17

21

17

15 15

5

5

13

16 16

20

7

8

3

4 12

6

1

2

19

1

11

23

3

4

0

4

15

strip32

22 22

20

21

17

5

11

26 7 3

0

16

24

1

25

8

7

ip1

0

str

10

13

29

6

2

1

14

24

30 1

9

4

4 27

2

9 5

0

20 18

2

15

11

5

6

4

12

2

3

18

14

10 11

8 8

5

0

28

19 16 13

9 strip1

4

1

1

1

two types of square patten and a pattern with two triangles

1

6

3

0

7

17

30

7

10

strip2

8

10

11

8

9 7

8

13

5

8

18

6

4

12

17

14

20

3 2 9

1

15

21

1

0

strip3

20

12 13

19 16

15

14 15

17 20 18

4

11

twp types of square pattern and two pyramid patterns

19 15

16

The unroll pictures of the models. The number is used to make sure the different lines in complexmodule that includes more than two basic models. The fold line is dashed to differ with the cut line.

Some parts of 3D models in group with different number basic models

5

WEEK 7 READING: DIGITAL FABRICATION

EXPLORING 3D PANELLING

Question 1: What is digital fabrication and how does it change the understanding of two dimensional representation? (Maximum 100 words) The digital fabrication can be defined as a digital skill that uses digital technolegy in the process of design. By using digital fabrication, the three-dimentional shapes can be unrolled in the two-dimentional, which helps the process of understanding and construction.

Question 2: Suggest two reasons why folding is used extensively in the formal expression of building design? (Maximum 100 words) The first reason why folding is used in the formal expression buiilding design is that it can creates the final design model in three-dimentianal, which facilitates the creation of construction and structure because it shows some bases of the shapes and space. Also, in the fold process, the building materials and construction design could be connected. In this way, the cost of materials can be saved in construction.

The digital module design in perspective and top viem with five basic design models.

6

7

2 5

3

0

6

4

8

4 5

11

11

6

1

18

20

3

1

0

19 17 19

16

18

7

4

9

10

strip8

8

12 13 13 14

15

11 12

PANELISED LANDSCAPE

1

8

UNROLL TEMPLATE OF YOUR FINAL MODEL

2

11

13

7

8

11 1

1

0

6

4

17

21

19

16

15

20

7

10

18

14

3

5 14

18

12

12

strip11

13

10

str ip

12

2

9

9

0 4

0 4

2

2

1

5

2

1 5

1

8 1

4

5

3

4

0

6

3

30

4

8

8

3

28

9

8 str

29

7

ip

10

35 str

27

6

ip3

11

4

7

26

6

28

9

17

13

7

24

9

19

23

14

strip26

16

11

25

20

8

15

12

10

8 10

22

21

18

21

18

the overall top view of the final model

the details of the model

Unroll model image in illustractor and afrer printed

8

9

APPENDIX

The unroll model images was done.

One of the model completed

10

To cut the unroll model by cut line and fold line

To connect many separated models together

11