OS-E: 0910 Shell Cantilever

Demonstrates how size optimization can be used.


sizeopt-prob1
Figure 1. Structural Model

Model Files

Refer to Access the Model Files to download the required model file(s).

The model file used in this example includes:

size1.fem

Model Description

For the cantilever beam, a thickness distribution is sought that minimizes the structural mass and allows a limited vertical deflection of the loading end. The displacement is limited to 2.0mm.

The thickness for each element is varied. Therefore, five variables are defined in the analysis deck. The initial thickness of all elements is 2mm. All thickness variables have a lower bound of 1mm and an upper bound of 3mm.

The optimization problem, objective and constraint functions, is defined in the same manner as for the other types of structural optimization. OptiStruct then goes through an iteration process to solve the optimization problem. OptiStruct converged after 3 iterations.

Results

Table 1 shows the optimization results of the cantilever beam, which met the constraints and minimizes the mass (decrease of 6.6%).
Table 1. Optimization Result of Cantilever Beam
  Element 1 Element 2 Element 3 Element 4 Element 5 Disp Volume
Initial 2.0mm 2.0mm 2.0mm 2.0mm 2.0mm 2.5mm 400.00mm3
Final 2.6mm 2.3mm 1.9mm 1.5mm 1.0mm 2.0mm 373.204mm3