Multiscale modeling can be used for design, ultimate failure, statistical-based material allowables, fatigue, fracture, impact, crash, environmental degradation and multiphysics simulations of continuous, woven, and/or chopped fiber composites, honeycomb cores, reinforced concrete, soil, bones, and various other heterogeneous materials.
While a number of multiscale modeling frameworks exist, Altair’s Multiscale Designer provides unmatched combination of practicality, mathematical rigor, validation, and versatility.
In this webinar you’ll learn how to:
• Develop multiscale material models using forward homogenization and inverse optimization technologies
• Create built-in parametric unit cells for unidirectional, woven, chopped, and particulate fiber composites
• Simulate nonlinear material behavior including ultimate failure at the micro-scale
• Obtain virtual material allowables supported by test and perform fatigue analysis
• Efficiently plugin to commercial FEA codes such as OptiStruct, RADIOSS, LS-DYNA, and Abaqus
Design with Multiscale Modeling of Heterogeneous Materials for Statistical-based Allowables, Fatigue, and Fracture Behavior
June 16, 2016 |
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