1 / 9

Choice design variables

Choice design variables . The design variables we have considered for optimization define dimensions or angles or in more general terms the magnitude of a variable or the number of items.

margo
Télécharger la présentation

Choice design variables

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Choice design variables • The design variables we have considered for optimization define dimensions or angles or in more general terms the magnitude of a variable or the number of items. • For laminate design, we will also run into choice design variables that will define which of several options we will choose. • For Example 4.1.1, we had to choose between three laminates and this is formulated with choice design variables in Example 4.1.2. • Later, the main use would be to choose ply angles from a limited set of 0, 90, 45 or -45.

  2. Example from geometry • Choose between a circle, a square, and an equilateral triangle of unit area, to get the smallest perimeter. • We can define a single variable that will take the values 1,2 or 3, but it turns out that it is advantageous to use three variables each taking the values 0 or 1, that is binary variables. • We will use three choice variables . A value of 1 indicates that we choose the corresponding option and a value of zero that we do not choose it. • To ensure that we choose only one option we add satisfy an equality constraint . • We add the defining dimension d (diameter or side) as our fourth variable.

  3. Optimization formulation • Areas and perimeters • Area with choice variables • Optimization formulation

  4. Solver initial screen

  5. Solver solution

  6. Answer report

  7. Example 4.1.1 revisited • Graphite/epoxy • Two load conditions • Allowable strains: Normal strains 0.4%, shear strain 0.006 • Try • Ply thickness is t=0.005 in.

  8. Strain constraints and moduli • Normal strain constraint leads to • Shear strain constraints leads to • For all zero laminate =18.5Msi, =0.93Msi • For laminate =3.176Msi, =4.858Msi • For laminate =7.552Msi, =2.894Msi. Do these values make sense? • Example 4.1.2 formulates the problem using choice design variables

  9. Use of choice variables in 4.1.2 • Laminates • Design variables • Choice constraint =1 • Objective function • Young’s modulus • Solve with Solver.

More Related