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.
Test 5HOptiStruct is used to investigate the Peak Displacement in y-direction and extreme fiber bending stress at undamped Natural Frequency
(at the mid-span node).
Test 5TOptiStruct is used to investigate the Peak Displacement in y-direction, the time at the peak displacement, extreme fiber bending
stress at undamped Natural Frequency and the Static displacement at the mid-span node.
Test 13HOptiStruct is used to investigate the Peak Displacement in z-direction and extreme fiber bending stress at undamped Natural Frequency
(at the center of the plate).
Test 13ROptiStruct is used to investigate the Peak Displacement in z-direction and extreme fiber bending stress at undamped Natural Frequency
(at the center of the plate).
Test 13TOptiStruct is used to investigate the Peak Displacement in z-direction, the time at the peak displacement, extreme fiber bending
stress at undamped Natural Frequency and the Static displacement at the center of the plate.
Test 21HOptiStruct is used to investigate the Peak Displacement in z-direction and extreme fiber bending stress at undamped Natural Frequency
(at the center of the plate).
Test 21TOptiStruct is used to investigate the Peak Displacement in z-direction, the time at the peak displacement, extreme fiber bending
stress at undamped Natural Frequency and the Static displacement at the center of the plate.
OS-V: 0330 Deep Simply-Supported Beam Transient Forced Vibration Response Test 5TOptiStruct is used to investigate the Peak Displacement in y-direction, the time at the peak displacement, extreme fiber bending stress at undamped Natural Frequency and the Static displacement at the mid-span node.
OS-V: 0387 Vibrating Cylinder Test No. CA2A numerical simulation of sound radiation of a cylinder with vibrating lateral surface radiating sound into the exterior unbounded domain.