Wood Damage and Fatigue
UMat/VUMat Subroutines Bundle
Unidirectional Composite Bundle
Composite Damage Models Bundle
Steel Bundle
Cohesive Bundle
Fatigue Bundle
Meshing Bundle
Platinum Membership
- Duration: 24 months
- Cost: €2,489 per 24 months
- Packages Included: 20 packages
- Packages Paid For: 13 packages
- Discount: More than 65%
- Access to 20 ABAQUS software packages
- Pay for only 13 packages, but receive 20 packages
- Significant discount of more than 65% off the regular package pricing
Golden Membership
ABAQUS Sequential Solution Software
UVARM subroutine in ABAQUS
Abaqus composite modeling of Woven & Unidirectional + RVE method
This training package provides comprehensive basic information and examples on for composite modeling in ABAQUS FEM software in accordance with subsequent packages. The methods of modeling these materials are in two ways: micro and macro, which vary according to the type of material selected and how they are used. Next packages focus on two modeling types professionally.
How to write input file in ABAQUS
UEXPAN and VUEXPAN Subroutine
In this tutorial, how to define increments of thermal strains, in order to model thermal expansion, is taught. The implementation of thermal expansion in model is done with UEXPAN and VUEXPAN subroutines for Abaqus/Standard solver (implicit method). In user subroutines UEXPAN or VUEXPAN, the increments of thermal strains can be defined as functions of predefined field variables, temperature, and state variables.
UEXPAN and VUEXPAN are called for all integration points of part elements where the definition of material or gasket behavior includes user-subroutine-defined thermal expansion.
The subroutines are used when the material’s thermal expansion behavior is too complex to model with the "EXPANSION" option in the Abaqus software environment. For example, the subroutines are used in problems where the thermal strains are complexly dependent on temperature, predefined field variables, and state variables, and there is a need to update these variables.
The user subroutine UEXPAN is called twice per element point in each iteration during coupled thermal-electrical-structural or coupled temperature-displacement analyses.
UGEN Subroutine in ABAQUS
Implementation of Cohesive by interaction & element based methods in ABAQUS
This package teaches you how to choose the method and apply cohesive modeling for various simple and complex problems. The training package also teaches you how to define the basic geometry of the adhesive elements and how to define the mechanical behavior in elastic and damaged regions in ABAQUS FEM software.