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fabricademy2017:students:cheung:week_5_-_computational_couture [2018/04/25 17:51] wei-ying.cheung [Second design] |
fabricademy2017:students:cheung:week_5_-_computational_couture [2018/04/25 21:38] wei-ying.cheung [Second design] |
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For the second design, I wanted to create a stand alone weave structure. Having no experience in Grasshopper, I needed to use a tutorial ([[http://www.grasshopper3d.com/video/defining-a-parametric-weave|http://www.grasshopper3d.com/video/defining-a-parametric-weave]]) to create a weave. The main steps of the tutorial are as follows: | For the second design, I wanted to create a stand alone weave structure. Having no experience in Grasshopper, I needed to use a tutorial ([[http://www.grasshopper3d.com/video/defining-a-parametric-weave|http://www.grasshopper3d.com/video/defining-a-parametric-weave]]) to create a weave. The main steps of the tutorial are as follows: | ||
- | Select Square Grid (Vector tab), add number slider to the x and y directions - so that the size of the square grid (therefore the weave) can be adjusted | + | * Select Square Grid (Vector tab), add number slider to the x and y directions - so that the size of the square grid (therefore the weave) can be adjusted |
+ | * Create a Cull Pattern (Sets tab, Sequence), with boolean toggle values (Params tab, Special) as input i.e. true or false, and link to a tree Branch (Sets tab, Tree) - in order to isolate different points to then manipulate separately (to create the up and down directions for a weave) | ||
+ | * Use Move (Transform tab, Euclidean) - to move a row of points up | ||
+ | * Use Vector Amplitude (Vector tab, Vector) with a number slider - to specify the height of points | ||
+ | * Use Flip Matrix (Sets tab, Tree) - to flip rows and columns to change the direction of the points (from y direction to x direction) | ||
+ | * Use Weave function (Sets tab, List) - to weave between 2 points, and using a boolean toggle to change the weaving pattern | ||
+ | * Use Interpolate Curve (Curve tab, Spline) and the weave function as the input - to create curved lines between points | ||
+ | * Cull again to isolate curves, i.e. the middle curve or the outer curves (of 3 curves) | ||
+ | * Use Rotate 3D (Transform tab, Euclidean) - to rotate outer curves | ||
+ | * Copy steps and switch true / false values - to create curves that are inverted/opposite to the original curves that form the basis for the up and down weave structure | ||
+ | * Use Pipe Component (Surface tab, Freeform) - to change lines (of the curves) into pipes, with a number slider to change thickness | ||
- | Create a Cull Pattern (Sets tab, Sequence), with boolean toggle values (Params tab, Special) as input i.e. true or false, and link to a tree Branch (Sets tab, Tree) - in order to isolate different points to then manipulate separately (to create the up and down directions for a weave) | + | After I produced the weave using the tutorial, I adapted it slightly to experiment with a new design. The change I made to the original design was to mirror the design on top of itself - to create 2 layers of the weave structure. Printing this double structure with flexible filament, I was interested to see the results, how it would feel and what it would be like when pressed together. |
- | + | ||
- | Move a row of points up | + | |
- | + | ||
- | and I adapted it slightly to experiment with a new design. The change I made to the original design was to mirror the design on top of itself - to create 2 layers of the weave structure. Printing this double structure with flexible filament, I was interested to see the results, how it would feel and what it would be like when pressed together. | + | |
I used the same settings in Cura as the previous print on fabric, however I encountered problems with the print. The first layers of the material were not sticking to the bed. I increased the temperature of the bed and also put down some sticky tape to help the layers stick better. The print improved, however, I still had problems. A colleague helped me with this problem by re-calibrating the height of the bedplate so that the nozzle would be closer to the bedplate. This solved the problem and the weave structure was printed successfully. | I used the same settings in Cura as the previous print on fabric, however I encountered problems with the print. The first layers of the material were not sticking to the bed. I increased the temperature of the bed and also put down some sticky tape to help the layers stick better. The print improved, however, I still had problems. A colleague helped me with this problem by re-calibrating the height of the bedplate so that the nozzle would be closer to the bedplate. This solved the problem and the weave structure was printed successfully. | ||
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{{:fabricademy2017:students:cheung:weave_printing.jpg?300|weave_printing.jpg}}{{:fabricademy2017:students:cheung:final_weave_1.jpg?300|final_weave_1.jpg}} | {{:fabricademy2017:students:cheung:weave_printing.jpg?300|weave_printing.jpg}}{{:fabricademy2017:students:cheung:final_weave_1.jpg?300|final_weave_1.jpg}} | ||
- | **//Final thoughts// ** | + | **//Final thoughts// ** |
It was useful to experience Grasshopper, however I found the program difficult use. It was hard to me to find the right function that I needed for a design element I had in mind, and to know what input the components required; often, the program produced results I didn't expect. I am aware that my first design is very simple, as I found it difficult to produce a more complicated structure that I wanted. | It was useful to experience Grasshopper, however I found the program difficult use. It was hard to me to find the right function that I needed for a design element I had in mind, and to know what input the components required; often, the program produced results I didn't expect. I am aware that my first design is very simple, as I found it difficult to produce a more complicated structure that I wanted. |