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 nonlinear small displacement analysis examples generated using OptiStruct. Each example uses a problem description, execution procedures, and results to demonstrate how OptiStruct is used.
This section presents nonlinear large displacement analysis examples generated using OptiStruct. Each example uses a problem description, execution procedures, and results to demonstrate how OptiStruct is used.
This section presents nonlinear transient analysis examples generated using OptiStruct. Each example uses a problem description, execution procedures, and results to demonstrate how OptiStruct is used.
This section presents normal modes analysis examples generated using OptiStruct. Each example uses a problem description, execution procedures, and results to demonstrate how OptiStruct is used.
This section presents complex eigenvalue analysis examples generated using OptiStruct. Each example uses a problem description, execution procedures, and results to demonstrate how OptiStruct is used.
This section presents thermal and heat transfer analysis examples generated using OptiStruct. Each example uses a problem description, execution procedures, and results to demonstrate how OptiStruct is used.
This section presents analysis technique examples generated using OptiStruct. Each example uses a problem description, execution procedures, and results to demonstrate how OptiStruct is used.
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.
Use equivalent radiated power (ERP) response to conduct a shape optimization of an oil pan cover by applying a specific
excitation in frequency response analysis using OptiStruct.
Shape variables are used in this example to vary both the thickness and the shape of a plate constructed from solid
elements. Topography optimization allows discrete areas of the plate to change thickness and/or height, providing
a greater range of possible solutions than with shape or size optimization alone.
Topography optimization has applications beyond creating beads in shell surfaces. Since the basic topography approach
can be applied to any model containing large fields of shape variables, it lends itself to solid model applications.
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.
This section presents multiphysic examples generated using OptiStruct. Each example uses a problem description, execution procedures, and results to demonstrate how OptiStruct is used.
This section presents response spectrum examples generated using OptiStruct. Each example uses a problem description, execution procedures, and results to demonstrate how OptiStruct is used.
This section presents nonlinear explicit analysis examples generated using OptiStruct. Each example uses a problem description, execution procedures, and results to demonstrate how OptiStruct is used.
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 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.
Use equivalent radiated power (ERP) response to conduct a shape optimization of an oil pan cover by applying a specific
excitation in frequency response analysis using OptiStruct.
Use equivalent radiated power (ERP) response to conduct a shape optimization of an oil
pan cover by applying a specific excitation in frequency response analysis using OptiStruct.
The objective is to reduce radiated noise from a structure by changing the shape, which is
the design variable. Initially, you identify the location on the structure which contributes
most, and to identify those frequencies where the radiation becomes maximum (with the
nominal run). Here, the Frequency Response Analysis (with the frequency range from 1000Hz to
2200Hz) subcase is used to compute the equivalent radiated power (ERP) of this part.
FE Model
Element Types
CQUAD
The linear material properties are:
MAT1
Young’s Modulus
2.1E5 MPA
Poisson's Ratio
0.3
Density
7.9E-9
Results
Based upon these findings, a shape optimization of the oil cover has been performed to
reduce the contribution and thus, reduce the peak at 1200Hz shown in Figure 2.