By enrolling in this course, you will learn:
- Comprehensive Abaqus Composite Modeling: Acquire a deep understanding of modeling various composite materials such as unidirectional, woven, wood, and chopped composites in Abaqus, covering fundamental concepts through advanced damage analysis.
- Damage Initiation and Progression: Master techniques for simulating and analyzing the initiation and progression of damage within composite material models.
- Fatigue Simulation Using Subroutines: Learn to utilize subroutines like UMAT, VUSDFLD, and USDFLD to conduct precise fatigue analysis of composite models.
- Practical Applications: Apply your knowledge to solve real-world problems across diverse industries, including aerospace, automotive, and subsea applications.
- Cohesive and Curing Simulation: Explore methods for simulating the curing process in composites using the mentioned models, and learn to model cohesive damage and fatigue.
You can also access numerous composite simulation examples available on our YouTube channel. Additionally, various packages related to composite modeling are available in our video shop under the Composite category.
MODULE 1: ABAQUS COMPOSITE MODELING
Composite FEM Course
- Lesson 1-1 :Fundamentals
- Workshop 1-1: Stress analysis of woven composite plate under compression (microscopic analysis)
- Workshop 1-2: Stress analysis of unidirectional multilayered composite plate under compression (macroscopic analysis)
- Workshop 1-3: Stress analysis of composite by RVE (micro modeling) under normal displacement
MODULE 2: COMPOSITE DAMAGE
Composite Damage Course
- Lesson 2-1: Simulation of unidirectional composite damage in Abaqus
- Workshop 2-1: Static analysis of damage initiation and progressive damage based on HASHIN failure criterion in holed composite plate under non-uniform loading (shell element)
- Workshop 2-2: Static analysis of stress based damage initiation criterion on holed composite plate under complex non-uniform loading (continuum shell element)
- Workshop 2-3: Investigation of damage initiation and progressive damage based on criteria in the impact of a bullet on the a multilayer composite cylinder shell (shell element)
- Workshop 2-4: High-speed Impact analysis on multi-layered composite plate based on HASHIN failure criterion (damage initiation and progressive damage/ physical based criterion/ shell element))
- Workshop 2-5: Impact analysis on composite plate with continuum shell element (damage initiation and progressive damage)
- Lesson 2-2: Simulation of composite Hashin damage in 3d continuum element in Abaqus (UMAT-VUMAT-USDFLD)
- Workshop 2-6:Simulation of composite Hashin damage in 3d continuum element in Abaqus with UMAT
- Workshop 2-7: Simulation of composite Hashin damage in 3d continuum element in Abaqus with VUMAT
- Workshop 2-8: Simulation of composite Hashin damage in 3d continuum element in Abaqus with USDFLD
- Lesson 2-3: What is woven composite?
- Lesson 2-4: Woven composite modeling
- Lesson 2-5: Damage in woven composites
- Lesson 2-6: How to apply damage criterion in Abaqus?
- Workshop 2-9: Damage simulation of a woven composite plate
- Lesson 2-7: What is short fiber composite (SFC)?
- Lesson 2-8: Short fiber composite modeling
- Lesson 2-9: Damage in short fiber composites (dano model)
- Workshop 2-9: Composite plate with a hole with plane stress element
- Workshop 2-10: Composite plate with a hole with shell element
- Workshop 2-11: Lemaitre damage UMAT scripting
- Workshop 2-12: Mean-field homogenization Abaqus simulation of composite case study
- Workshop 2-13: Mean-field homogenization Abaqus simulation of composite case study edit INP script
- Lesson 2-10: HASHIN modified damage model for wood materials
- Lesson 2-11:Sandhas damage model for wood materials
- Workshop 2-14: Modified HASHIN subroutine implementation on one element
- Workshop 2-15: Sandhas subroutine implementation on one element
- Workshop 2-18: subroutine implementation on 3d plate with hole
- Lesson 2-12: All you need to know about cohesive simulation with two element-based and surface-based method
- Workshop 2-16: Simulation single lap joint under tension
- Workshop 2-17: Simulation of masonry wall in Abaqus
- Workshop 2-18: Debonding behavior of a double cantilever beam
MODULE 3: CURING
Composite Curing Course
- Lesson 3-1: Simulation of the curing process in fiber-reinforced composites
- Lesson 3-2: Thermo-chemo-mechanical simulation of curing process in fiber-reinforced composites
- Workshop 3-1: Simulation of the curing in a prepreg laminate
- Workshop 3-2: Thermo-chemo-mechanical analysis of the curing process
- Workshop 3-3: Analysis of the curing process using the Chile(T) model
MODULE 4: FATIGUE
COMPOSITE FATIGUE COURSE
- Workshop 4-1: Composite fatigue analysis with UMAT subroutine in shell elements-part 1 (theory)
- Workshop 4-2: Composite fatigue analysis with UMAT subroutine in shell elements-part 2 (subroutine writing)
- Workshop 4-3: Composite fatigue analysis with UMAT subroutine in shell elements-part 3 (Implement modeling in Abaqus software)
- Lesson 4-1 : Groups of composite fatigue models
- Lesson 4-2: Material characterization
- Lesson 4-3: Generalization of the failure model
- Lesson 4-4: Simulation of woven composite fatigue with UMAT subroutine
- Workshop 4-4 : Fatigue analysis on a single element
- Workshop 4-5 : Fatigue analysis on a complex model
- Lesson 4-5: Fatigue and Fiber-reinforced composites
- Lesson 4-6: What are short fiber composite fatigue damage model?
- Lesson 4-7: How to model composite material behavior?
- Workshop 4-6: Fatigue modeling on a standard tensile test specimen
- Lesson 4-8: Introduction to fatigue theory of wood
- Lesson 4-9: Writing subroutine line-by-line
- Workshop 4-7: Fatigue simulation of wood on simple model with subroutine
- Lesson 4-10: Theory of cohesive fatigue based on article
- Lesson 4-11: Writing subroutine for cohesive fatigue
- Workshop 4-8: Cohesive fatigue analysis of two AL specimens in the adhesive single lap joint
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