OptiStruct is a proven, modern structural solver with comprehensive, accurate and scalable solutions for linear and nonlinear
analyses across statics and dynamics, vibrations, acoustics, fatigue, heat transfer, and multiphysics disciplines.
The OptiStruct Example Guide is a collection of solved examples for various solution sequences and optimization types and provides
you with examples of the real-world applications and capabilities of OptiStruct.
This section presents optimized topology examples generated using OptiStruct. Each example uses a problem description, execution procedures, and results to demonstrate how OptiStruct is used as a design concept tool.
This section presents size (parameter) optimization examples solved using OptiStruct. Each example uses a problem description, execution procedures, and results to demonstrate how OptiStruct is used in size optimization.
This section presents shape optimization example problems, solved using OptiStruct. Each example uses a problem description, execution procedures and results to demonstrate how OptiStruct is used in shape optimization.
The examples in this section demonstrate how topography optimization generates both bead reinforcements in stamped
plate structures and rib reinforcements for solid structures.
The examples in this section demonstrate how the Equivalent Static Load Method (ESLM) can be used for the optimization
of flexible bodies in multibody systems.
The OptiStruct Example Guide is a collection of solved examples for various solution sequences and optimization types and provides
you with examples of the real-world applications and capabilities of OptiStruct.
OS-E: 1000 Grid Point Stress Response for Free-Shape Optimization
Grid point stress response of homogeneous material for Free-Shape Optimization is
performed.
The objective is to minimize the max grid point stresses in a selected area. In this
example, the 3D cylinder is modeled using first order Tetra elements.
This example has a linear static analysis of a cylinder which has force applied on specific
locations and constrained in all directions at the bottom. Grid point stress response are
defined by setting RTYPE=GPSTR in
DRESP1 card. The element used should be solid elements with
PSOLID property. Grid point stress response of homogeneous material is
supported for Shape and Sizing Optimization also.