USERMAT: Custom material models in Ansys Mechanical
Material models like a tailored suit
Custom Material Models in Ansys Mechanical: Here, you become an expert in programming the USERMAT. This training is offered as a self-paced eLearning course.
Duration
1 day
Prerequisites
Basic knowledge of Ansys Mechanical, Basic knowledge of Ansys UPF
Software used
Ansys Mechanical
- Programming Yourself Instead of Just Watching: Mastering USERMAT Handling
- A Competence Boost for Continuum Mechanics Skills
- Applying Modern Numerical Methods
- Creating Unique Selling Points Through Innovative Material Models
Description
In this training, we explore the capabilities that Ansys offers for material modeling with the USERMAT interface. While Ansys already includes a vast array of advanced material models like crystal plasticity for turbine blades, there are still uncharted areas crucial for specific application fields. This is where USERMAT comes in, giving engineers the freedom to implement almost any material model.
This training not only provides fundamental knowledge in continuum mechanics but also specialized skills essential for the successful use of the USERMAT interface. These include understanding the interface, practical skills such as solving differential equations and dealing with state variables, deriving material models, and nonlinear equations both numerically and analytically, applying redundancy-free numerics, and exchanging data with other subroutines. Continuous compiling & linking ensures that handling becomes second nature. This training qualifies every participant for the Champions League of mechanics: the implementation of arbitrary, nonlinear, and inelastic material models.
Get a first impression and test the first eLearning module of this training course without any obligation. No costs, no notice period.
Detailed agenda for this 1-day training
Day 1
01 Handling the USERMAT Interface
- Determining when you need USERMAT and identifying good reference materials.
- Recall – Working with MS Visual Studio: compiling, linking, and debugging.
- Creating a user-friendly material definition in Workbench.
- White-box testing of USERMAT.
- Workshop: Getting the provided USERMAT up and running.
02 Implementation of Linear Material Models
- Exploring material theory ideas for constitutive laws without state variables.
- Performance boost with redundancy-free numeric: pitfalls of Mandel & Voigt notation.
- A crucial component of tensor algebra: the directional derivative.
- Determining the initial value problem, stresses, and material tangent for linear material models.
- Workshop: Starting small - implementing Hooke's law as USERMAT.
03 Implementation of Inelastic Material Models
- Exploring material theory ideas for constitutive laws with state variables.
- Solving nonlinear material equations using the Newton-Raphson method.
- Consistent linearization and analytical stiffness matrix for nonlinear initial value problems.
- Workshop: Going inelastic – implementing your own viscoelastic material model.
04 Advanced Aspects of Material Modeling
- Numerical Derivatives: A powerful tool in the development process of new material models.
- Handling Shell Elements: Mastering plane stress state and thickness update.
- Data exchange between USERMAT and other UPFs.
- Workshop: Extending the elastic material model for shell elements.
Your Trainers
Dr.-Ing. Slav Valterov Dimitrov
Placement in the CADFEM Learning Pathway
Participant data
Additional information
Commentary
Get a first impression and test the first eLearning module of this training course without any obligation. No costs, no notice period.
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If the minimum number of attendees is not reached, we reserve the right to cancel the training seven days before it is due to start at the latest. We are happy to inform you on changing your booking to an alternative date. Please note that we accept no liability for hotel or travel bookings that attendees have already made.
Usually the training courses start at 9:00 am and end at 5:00 pm of the respective local time. The actual course times will be stated in the booking confirmation. Please note that, depending on the training host, there may be a possible time shift between your and the provider's local time. Therefore all local times are provided with the valid time shift to Greenwich Mean Time (GMT).
To get a clear impression of our online learning format, we offer you a trial allowing you access to the starting module of an eLearning course of your choice. No costs, no cancellation period or anything similar. Moreover, with this free test access you can check all the technical requirements for a smooth learning process. You can easily request the free module from any eLearning course.
Each online course day comprises four eLearning modules. You should ideally allow 90 to 120 minutes of uninterrupted learning time for each module. This will allow you to acquire the knowledge provided by a module and to consolidate it through quiz questions and Ansys exercises. By dividing each module into micro learning units, you can also make good use of smaller time windows, such as on your commute.
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