From Digital Project to STAAD

In this project the aim was to export a form created by Digital Project into STAAD. STAAD is a structural analysis software that will help validate the durability of the design in overcoming the various structural forces against it. The images below are of the form from the DP, not STAAD. The 3D model required additional information to enable the structural analysis to be properly preformed.

The images ( 1 to 5 ) show the different alterations of form that will be tested using STAAD.

Image 1

Image 2

Image 3

Image 4

Image 5

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Folding: From The Physical To The Digital

This post is the third on the series of "folding" assignments. The earlier attempt of this project (http://dtbyemad.blogspot.com/2013/10/folding.html) did not show satisfying results. The form was controlled through a number of constraints and parameters that were not correctly assigned to the geometry, and the geometry itself in terms of its relationship - between one geometry and another - was not very well understood. So, in this post, the process of creating a "part" and a product was further investigated to achieve the required geometrical form and behavior. Image 1: shows the intended form. The photos is from Paul Jackson's book "Folding Techniques For Designers From Sheet to Form". Image 2: to be able to construct this form, first we will have to breakdown the geometry into individual unit (a complete set of surfaces). Then this unit will be even broken down to individual surfaces, each surface will be separately placed

CORAL: D.O.E.s & Assemblies

Coral is a project that merges between both the Virtual Engagement and Materials Engagement classes. The goals of this project are: first, to translate the design from the digital environment into a physical object using knowledge and skills that we have developed in both classes during the past 14 weeks, and using state-of-the-art fabrication tools. Second, is to create a unit - part - that could be replicated and then put together in an assembly - product. The assembly's dynamic nature was delivered through its parts that could be rearranged in various ways to produce different assembly configurations, and the ability to adapt to its context. The overall effect is similar to how a coral - organically - grows contextualizing its environment. As mentioned, the project will highlight some of the skills that were gained throughout the term required to complete this project, and are organized below as the project's development phases: 1. Digital Environment: 1.1. 2

Algorithms: Design of Experiments

Design for experiments is an algorithmic based tool that is found in DP, which help the designer - us in this case - to evaluate and provide a set of possibilities for a designed object. This algorithmic approach and the operation of the tool relies on the set of data (input) provided that derive and control the possible results (outcomes); data in this case, are derived from the parameters that control the sketch. The value of this digital tool - and this computational approach - is to tackle design issues through a an infinite set of possibilities and outcomes, each of these results are evaluated based on measured properties, for example, in this assignment, the volume of the altered object is the source of evaluation. Image 1: as any of the previous projects that have been presented, creating the sketch is the initial step. In this sketch the geometry (circle) is constrained and controlled through the construction geometry (horizontal and vertical lines), which are a

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