dd folio by Yingna Sun

Digital Design - Portfolio Semester 1, 2018 Yingna Sun

900813 Tutor: Dan Parker

email: yingnas@student.unimelb.edu.au

Content:

Education:

Precedent Study

Reflection:

2017 - current 2016 - 2017

Bachelor of Design Trinity College

2013 - 2015

Shanghai Cambridge International Center

Generating Design Through Digital Processes Work Experience: 2017 Nov -2018Jan

Urban Architecture ( UA Design)

Rhythm Pavilion Awards / Exhibition: 2017

FOD:R Exhibition, AFLK Gallery

Architectures always attracts me. In my point of view, architecture is not just a house for its fuctions, it provides a sence of different levels of space in peopleâ&#x20AC;&#x2122;s mind. The contrast and connection in arhitecture is very intereting. Spaces does not only be divided by physical wall, but also can by some other elements, such as light. Spaces keep changing between interior space and exterior space as the time or season changing. Thus, when I design an architecture, I always consider the light effect (natural effect), space connection, and space contradiction. This idea was also get developed in the module 1, from Zahaâ&#x20AC;&#x2122;s Burnham Pavilion. It has vey interesting idea about threshold and circulation. So I continued this idea in my own pavilion in module 3. In this semester, we have more chance to get used to the design of pavilions. During this process, we tried a lot of new skills in building digital models, such as grasshopper and unreal engine. These are two totally new skills for me in design and I found they

Skills: Rhino Grasshopper

are very useful. However, my skills for these two design techiques still needs further practicing.

Unreal Photoshop Illustrator Indesign Fabrication

01 - Diagramming Design Precedent

Isometric of my precedent study My precendent study is to build up the model of Zaha Hadidâ&#x20AC;&#x2122;s Burnharm Pavilion. This pavilion has very organic shape, which is build up by steel structure and fabric cover. Threshold plays a very important roll in this pavilion. The two large openings and the openings on the top makes the space inside and outside the pavilion linked together. Thus, it makes people walk through the pavilion without notice.

Burnharm Pavilion - Zaha Hadid

Analysing Diagram of the Burnham Pavilion

Fabric cover

Structure

Steel structure

Primary Circulation Space

Circulation paths

Interial base

Circulation Diagram

Thresholds (Permeability) Diagram

02 - Generating Ideas Through Process

Task 01 - Design Matrix

Lofts

1.1

1.2

1.3

Key

1.4

{0,0,0} {150,120,150} {0,150,150}

{30,150,150}

{0,30,150} {75,150,0} {0,0,90}

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

{0,150,0}

{150,60,0}

{0,90,0 }

{90,0,0}

{0,90,0}

{0,30,0}

Paneling Grid & Attractor Point

{Index Selection}

2.1

2.2

2.3

2.4

{230,0.6,59} {93,35,74}

{52,222,-3} {0,-144,149}

Paneling

{Attractor Point Location}

{Attractor Point Location }

3.1

3.2

3.3

3.4

Design Matrix for Task 01 6

Attractor / Control Curves Grid Points

{0,150,150}

{0,0,150}

Attractor / Control Points (X,Y,Z)

Surface and Waffle

Waffels at this side has greater variations of slope.Panels are formed by simple shape. There is a small square triangle opening on the top.

At this side with gentle slope, panels are more complicated. Each panel is formed by two triangles. One triangle is three opennings.

More openings on panels create a hamonic transition from the exterior and interior space of the structure.

Each panel at this side has gentle slope and relatively small openings on the top. It create a clear boundary between interior and exterior. In addition, it also produce contrast between light and shadow.

Exploded Axonometric 1:1 0

60mm

Computation Workflow

By adjusting the grasshopper script, I built several surfaces with different angles inorder to find a surface that worked well together. The surfaces that I first built is two surfaces with very gentle slop. Later I found that these surface are too flat to create interesting panels. So I tried the second one and the third one. These two has large varience on slop but very hard to stand. The last surfaces has variations on the slop. It also has a large base inorder to keep it standing stably. Thus, I chose the last one. I tried four different surfaces and finally chose the last one. The last two surface has a large base which enable the structure to stand stably. At the same tiime, it also has relatively various slope. I also chose to use 3D panels at both sides as it can create more interesting vrious on the model.

Task 01 model- Waffel and Panels

Lazer Cut Line Details and Fabrition Process

For the panels, I first devide them in seperate groups and then enrol the group of panels. Then add tabs in rhino and adjust them into a suitable size. I found that it is very important to arrange the unrolled curves in order in the laser cut file. It helps a lot when making models. The last step is to devide those curves in to different layers. Black for cutting and red for folding.

Task 02 - Boolean Model

nt {260,12,49}

Paneling

{Attractor Point Location}

3.1

3.2

3.3

3.3 3.4

SOLID AND VOID

Intersections that do not interact with each other create several relatively private spce. These small individual spaces also have opening on top for lightening.

The gaps between cutting geometries form columns at the side of the structure. These columns are used to support the structure and create a semi-openspace in the structure.

Where the geometry interacts with the surface envelope, it creates a opening after booleandifference. Thus, it forms a open space. Geometries inside create a hall inside the structure with three large openings. It provides a gental tranform from inside to outside. The small openings on the top also provide dramatical lightening to the interior.

Design Matrix Lofts

1.1

1.2

1.3

Key

1.4

{0,0,0}

{34,106,144}

Attractor / Control Curves {36,160,83}

{-93,-81,122}

{50,40,123} {-2,106,17}

{75,19,61}

{-91,-81,-5} {88,19,0.4}

Paneling Grid & Attractor Point

{Curve Attractor}

2.1

2.2

2.3

2.4

{28,58,177}

Attractor / Control Points (X,Y,Z

{68,159,49}

{28,-28,0} {260,12,49}

Paneling

{Attractor Point Location}

3.1

3.2

3.3

3.3 3.4

Insert your Design Matrix for Task 02 13

Grid Points

Computational Process

Creating the boolean by script was relatively straight forward. By using multiple attractors to adjust the grid and build different geometries inside to booleandiffference. In the workshop, we use simple geometry as example. Later I started to use more complex geometries in launch box. Further more, I also tried to use different geometries in one grid. Booleanunion different geometries to create new shapes.

Task 02 - Boolean Model 3D Printing

Annotation

Task 02 3D Printing Makerbot Screenshot after calculation

Annotation

The pavilion is devided in to the spaces at two levels. The wooden decking can be used as either stairs or the seats for people to held seminar during the lunch time. It can also be used as the platform for the quartet performence during the night.

The key concept was to design an open pavilion which can connect with its surround natural environment hamonicly. There are many threshold in both the sides and the top of the pavilion, which help to connect the inner space and the outer space in a continuous way. The pavilion is mainly build by earth materials, such as concrete, steel and timber. The use of material makes the pavilion become more close to the natural surroundings.

RHYTHM PAVILION

Isometric

Key Primary Circulation Circutation Paths Spacial Thresholds

The first floor of the pavilion. People can sit here and enjoy a better view. This area can be used as stage as well.

These steel columns supports the roof of the pavilion. At the sametime, it create a semi-opened corridor within the pavilion. At day time, the extended roof on top will provide shadows for people who sit on the wooden structure below.

At day time, It is the main interior space of the pavilion with a large threshold. At night, it can be used as the stage for music band. Shallow water pool. Provide a nice inverted image of the pavilion, surrounding environment during day time and lightning during night time.

Concrete decking in the middle of the water pool. People can get access to the pavilion througn here. When the porformence begain, this space can be used as auditorium.

Design Iteration

This pavilion is formed by bended steel beams. It has very organic curved shape. The allocation of the beams makes the pavilion become semiopen space. But in this pavilion, there is not many previous techniques been used.

I continued using the curved form in this pavilion. This one has a closed surface with openings on top. It forms a more distinct contrast between the inner space and the outter space. But this form is very similar with the Burnham Pavilion in module 1. So I did not use it.

I rotate the curved form in an opposite way and adjust it. It forms an great difference in height. But still lack of the previous skills.

Computational Process

Adjust the four curves can extrude them in both X& Y axis.

Add two curves to create the roof. Pipe the lines.

Use Voronoi to build a brep. Trim the brep to get the paneled roof

Apply materials to the pavilion. Get a preview of the whole pavilion.

Fabrication process

For the model of the Ryhthem Pavilion, I chose to use 3D Print only as I want to showed more details accurately.

360 Image Output

Digital Design Semester 1, 2018 24