<p>Thanks to the advice of my instructor Pablo, I decided to CNC mill a wooden frame of the model, using lace and dogbones. Using Rhinoceros design the frame following Maquetren's standards. I have milled it in 9mm thick plywood. Once the parts are assembled, this is the result of the module.</p>
<p>Within Project Development I have a section where you can see the file and the milling process, if you click on the following <ahref="http://fabacademy.org/2020/labs/leon/students/adrian-torres/projectmanagement.html#cnc"><b>link</b></a> you can see the result.</p>
<p>The resistance and flexibility of the composites are incredible. In my case, for the application of the model creation, before we used the hand-carved polystyrene and glued paper to it. That made the models weigh a little more.</p>
<p>Now I also have the opportunity to preserve the 3D mold to repeat more landscapes and make the model much lighter and more resistant.</p>
<h1>Final Project</h1>
<p>Within Project Development I have a section where I make all the necessary composites for the model, if you click on the following <ahref="http://fabacademy.org/2020/labs/leon/students/adrian-torres/projectmanagement.html#composites"><b>link</b></a> you can see the result.</p>
<h1>Extra credit. Soft Robotics</h1>
<p>During the year 2017, my instructor <ahref="http://wiki.textile-academy.org/fabricademy2017/students/nuria.robles"><b>Nuria Robles</b></a> carried out the <ahref="https://textile-academy.org/"><b>Fabricademy.</b></a> One of the things that surprised me the most were <b>inflatables</b> and <b>soft robotics.</b> During <ahref="http://fabacademy.org/2020/labs/leon/students/adrian-torres/week03.html#Inflatables"><b>week 03</b></a> I made an inflatable and this week I wanted to try creating a flexible silicone gripper.</p>
