Simulation, Material Modeling

Testing and Modeling of Polymers: High Rate and Traditional Testing

Design engineers often use polymers in impact protection applications, and these designs experience high strain rates during impact.  Polymers are viscoplastic by nature, so the material response is highly dependent on the strain rate.  Collecting data on your polymer (elastomer, thermo

Advanced Structural Mechanics Using COMSOL Multiphysics

This course—now taking place over three days—will cover most of the structural analysis capabilities in COMSOL Multiphysics including large deformations, linear and nonlinear material models, contact mechanics, solver settings and convergence issues, multiphysics coupling, and best practices.&nbs

Advanced Testing and Modeling of Polymers for FE Simulation

This course is intended for finite element (FE) engineers that simulate polymers and are interested in advancing their modeling skills to the most advanced material models available for polymers.  We will review the foundations of continuum mechanics for material modeling and dive into advanced material model calibrations, including inverse calibrations, failure modeling, and anisotropic material modeling.

Advanced Testing and Modeling of Polymers for FE Simulation

This course is intended for finite element (FE) engineers that simulate polymers and are interested in advancing their modeling skills to the most advanced material models available for polymers. We will review the foundations of continuum mechanics for material modeling and dive into advanced material model calibrations, including inverse calibrations, failure modeling, and anisotropic material modeling.

Advanced Testing and Modeling of Polymers for FE Simulation

This course is intended for finite element (FE) engineers that simulate polymers and are interested in advancing their modeling skills to the most advanced material models available for polymers.  We will review the foundations of continuum mechanics for material modeling and dive into advanced material model calibrations, including inverse calibrations, failure modeling, and anisotropic material modeling.

Multiphysics Analysis for Medical Devices Using COMSOL Multiphysics

This course—now taking place over three days—will review the physics areas relevant to medical devices and cover the efficient use of COMSOL Multiphysics to solve problems in the medical device industry.  It covers modeling challenges specific to medical devices, such as biological material

Testing and Modeling of Polymers for FE Simulation

This course is intended for finite element (FE) engineers that simulate polymers and are interested in advancing their modeling skills beyond hyperelastic material models.  The class covers the foundations of continuum mechanics for material modeling, including hyperelasticity, metal plasticity, linear viscoelasticity, and advanced viscoplastic material models.  The class also covers test methods and discuss how to design test plans for material modeling. 

Testing and Modeling of Polymers for FE Simulation

This course is intended for finite element (FE) engineers that simulate polymers and are interested in advancing their modeling skills beyond hyperelastic material models.  The class covers the foundations of continuum mechanics for material modeling, including hyperelasticity, metal plasticity, linear viscoelasticity, and advanced viscoplastic material models.  The class also covers test methods and discuss how to design test plans for material modeling. 

Testing and Modeling of Polymers for FE Simulation

This course is intended for finite element (FE) engineers that simulate polymers and are interested in advancing their modeling skills beyond hyperelastic material models.  The class covers the foundations of continuum mechanics for material modeling, including hyperelasticity, metal plasticity, linear viscoelasticity, and advanced viscoplastic material models.  The class also covers test methods and discuss how to design test plans for material modeling. 

Testing and Modeling of Polymers: High Rate and Traditional Testing

Design engineers often use polymers in impact protection applications, and these designs experience high strain rates during impact.  Polymers are viscoplastic by nature, so the material response is highly dependent on the strain rate.  Collecting data on your polymer (elastomer, thermo

CFD Modeling for mRNA Vaccine Production

This webinar will introduce how to model fluid mixing and nanoparticle self-assembly for mRNA vaccine production using COMSOL Multiphysics and Ansys Fluent.  Such models can rapidly expedite experimental design for small-batch or production-scale applications.&nbsp

Electromagnetic Simulation of Inductive Sensors

An inductive eddy current sensor is a non-contact device that generates electromagnetic fields to detect changes in the properties of conductive materials, such as defects, thickness, or conductivity. This webinar will introduce the fundamentals of inductive sensors, present a detailed workflow for designing them for nondestructive testing, and much more.

Introduction to Abaqus Python Scripting

This webinar will introduce users to Python scripting with Abaqus, a powerful tool enabling Abaqus users to parameterize models, automate workflows, and even enable functionality that is otherwise inaccessible due to severe repeatability.  In this class we will introduce you to Python script

Introduction to Abaqus Python Scripting

This new, web-based class will introduce users to Python scripting with Abaqus, a powerful tool enabling Abaqus users to parameterize models, automate workflows, and even enable functionality that is otherwise inaccessible due to severe repeatability.  In this clas

Modeling Soft Actuators and Devices

This webinar will introduce you to computational modeling of soft actuators, helping you understand how input loading impacts the response of the structure. Soft actuators frequently use nonlinear material properties and geometrical effects to work, and the inherent compliance of soft actuators make them ideal candidates for haptic applications, novel medical/surgical devices, wearables, and more.