Additive manufacturing simulation with Abaqus subroutine & python | Inherent Strain Method
Johnson Cook plasticity and damage simulation
Earthquake simulation in Abaqus
Simulation of woven composites damage in Abaqus
Damage simulation of short fibre composites with subroutine
Bio-Mechanical Abaqus simulation Full package
This video tutorial package offers a comprehensive guide to biomechanical simulations using Abaqus, covering a range of applications from dental to orthopedic and cardiovascular analyses. The workshops delve into finite element method (FEM) simulations, exploring static loading on human teeth, crack growth in bones under bending, bone drilling, and the behavior of titanium foam implants. Each tutorial emphasizes the importance of precise modeling and meshing techniques, utilizing dynamic explicit procedures, Johnson-Cook material models, and various contact and boundary conditions to simulate realistic biomechanical behaviors. Additionally, the package includes fluid-structure interaction (FSI) simulations for blood flow within coronary vessels, addressing both Newtonian and non-Newtonian models, and demonstrates the integration of computational fluid dynamics (CFD) with structural analysis for enhanced accuracy. The lessons complement the workshops by introducing fundamental FEM concepts, solver selection, explicit analysis considerations, and damage modeling, ensuring users gain a solid understanding of both theoretical and practical aspects of biomechanical simulations in Abaqus.
Abaqus Soil Modeling Full Tutorial
Abaqus steel material and structures Full Tutorial
Abaqus Crack Growth Full Tutorial
Balsa wood fatigue simulation with Abaqus subroutine
Fatigue damage simulation of short fibre composites with subroutine
Simulation of woven composite fatigue in Abaqus
UMAT Subroutine (VUMAT Subroutine) in ABAQUS-Free Version- UMAT Abaqus example
"UMAT Subroutine (VUMAT Subroutine) introduction" is used when the material model is not available in ABAQUS software. If you follow this tutorial package, including standard and explicit solver, you will have the ability to write, debug and verify your subroutine based on customized material to use this in complex structures. These lectures are the introduction to writing advanced UMAT and VUMAT subroutines in hyperelastic Martials, Composites, and Metal, and so on. Watch Demo
"Advanced UMAT Subroutine (VUMAT Subroutine)" training package helps Abaqus users to prepare complex UMAT and VUMAT subroutines. This training package is suitable for those who are familiar with subroutine or want to learn UMAT/VUMAT subroutine Professionally. Equations for computational plasticity based on kinematic stiffness are also discussed. In addition, metal damage has been implemented based on Johnson Cook's model. Watch DemoSimulation of SMA in Abaqus with UMAT
Simulation of composite Hashin damage in 3d continuum element in Abaqus (UMAT-VUMAT-USDFLD)
Python scripting in ABAQUS Part 2
Lemaitre Damage model implementation with VUMAT Abaqus
Python scripting in ABAQUS-(FREE Version)
Abaqus for beginners (Mechanical Engineering)-Free Version
Thermal Heat Transfer in Abaqus
- Uncoupled heat transfer analysis
- Sequentially coupled thermal-stress analysis
- Fully coupled thermal-stress analysis
- Adiabatic analysis