ARC 182 Portfolio By Chu-Han Tarn

Portfolio Chu-Han(Joshua) Tarn

Syracuse Architecture Spring 2019 ARC 182

Table of Content 2 2D geometric Logic (Typography)

5 3D Alphabet

(3D Alphabet)

13 3D Fabrication + Analysis

(Methods of Physical 3-Demensionliztion )

20 3D Fabrication + Analysis (Counters and Containers)

The first exercise explores the fundamental of geometic logic of how the helvetic works and how it was designed in the society and people. We use helvetic all over in our lives and dialy life. These letters are easy to read and they all have a clear geometic logic. The aim of this project is to explore the logic system and create an obstract from in the logic of typography

The variation and iteration leadings through the final abstration.

3

4

6 The aim of the second exercise is to demonstrate the transformation of the previous letter I made from the last exercise. By using the commands, “Loft”, “sweep”, and “boolean iintersection/ Union”

Variation in 3 different Profiles 1. Block arrangement 2. Sweep 3. Boolean

7

8

CUT PLANE

BLOCKS ROTATED IN PLAN

BLOCKS ROTATED IN SECTION

FINAL RESULT

TOP VIEW

ELEVATION

B A

REVOLUTION OF A

TOP VIEW

ELEVATION

B A

REVOLUTION OF B

BOOLEAN UNION

BOOLEAN INTERSACTION

9

REVOLUTION OF A and B Sweep 2

TOP VIEW

ELEVATION

C

D

A

B

REVOLUTION OF A AND C SWEEP2

REVOLUTION OF D AND C SWEEP2

FINAL RESULT BY BOOLEAN THREE CURVES TOGEHTERV

10

11

12

Top view

14

A1 A2

A3 A4 A5 A6 A7 A8 A9 A9 A10 A11 A12 A13 A14

laser cut 1 sheet 18 x 32

A1

A8

A2

A9

A3

A5

A4

A10

A11

A6

A12

A7

A13

A14

15

1

6

4 2 5

2

1

4

4

3

5

6

3

B2 B1 A17 A18 A20 A21 A22 A23 A19 A24

16

A25

B3 B5 B6 B7 B8 B9 B10 B11 B12

B4

B13 B14 B15 B16 B17

A16 A15 B18 B19 A14 A13 B20 A12 A11 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10

laser cut 1 sheet 18 x 32

A1

A2

A3

A4

A15

A16

A17

B20

B19 B18

B17

B10

B9

B8

A5

A6

A18

A7

A19

B16

B7

A20

B15

B6

A8 A9 A10 A11 A12 A13 A14

A21 A22 A23

B13

B14

B5

B4

A24

A25

B12

B3

B11

B2

B1

Axonometric

17

Elevation

18

Details of the model

19

21

Boolean difference between sweep model and sphere offset 0.5

Boolean difference between Sweep model and rectangle

Boolean difference between split model and rectangle offset 0.5

22

axon

section

Plan

23

abstract concept with triangular geometry

24

Abstract model placed in the real world as buildings

This final exericse explores how a abstract combined model can be repressent in real world and how it can be represent in an abstracted geometry pattern.

Big thanks to Professor Molly Hunker TAs Ian & Azadeh