Abaqus Crack growth training package
If you are a researcher, student, university professor, or Engineer in the company in the field of fracture mechanics, this training package in simulating crack growth in Abaqus software is the best selection.
In this training package, everything you need to simulate crack growth is completely available from simple to advanced. It includes modeling crack growth in Abaqus to crack propagation methods and damage to various materials. Note that crack growth in some cases requires using special features of Abaqus software.
You can see the syllabus and details of this workshop below or the drop-down menu on the right side of this product page.
  It will guide you going from the basics up to complex simulation techniques. it is very fluid, and comprehensive and every single detail is explained.
  Every workshop goes straight to the point, without any worthless piece of content. You will learn what you need at every stage and you will be putting it into practice from the very first day.
In a word, being complete and having support in this course is the essential value of this course.
    Most importantly, we support you as you learn in this course. You can contact our experts to ask your questions and enjoy our modeling and simulations step-by-step support.
Read More: abaqus fracture
What are the exact contents of each video in this package?
It should be noted that this package includes only workshops; there is no lesson at the beginning of each workshop, contrary to our other main training packages.
This video training package contains more than 300 minutes of video tutorials. Click on the chapters of each lesson in the right section of this tab to know the details of the tips and issues presented in this very comprehensive and useful ABAQUS course package.
It would be useful to see Abaqus Documentation to understand how it would be hard to start an Abaqus simulation without any Abaqus tutorial.
Want to learn 2D and 3D crack growth modeling? get our tutorial “Simulation of Fracture in Abaqus”
Workshop-1: Abaqus simulation of crack growth in the RC beam under 5 points bending
This workshop explores the simulation of crack growth in a reinforced concrete (RC) beam subjected to five-point bending in Abaqus. The concrete beam is represented as a three-dimensional solid component, while the reinforcing bars and strips are modeled as three-dimensional wire elements. The support structures and hydraulic jacks are modeled as three-dimensional rigid shell components.
The traction-separation law is employed to represent the concrete’s behavior and crack propagation. The cohesive behavior in the enriched elements is defined, with the maximum principal stress criterion used for initiating damage and an energy-based damage evolution law, following a power-law fracture criterion, applied for damage progression. Steel bars and strips are modeled using elastic-plastic material properties. A general static step is utilized, with adjustments to the convergence algorithm. The steel elements are embedded within the concrete, and surface-to-surface contact with friction is applied between all rigid bodies and the concrete beam. The XFEM method is used to track crack growth within the RC beam. Fixed boundary conditions are applied to the three bottom rigid bodies, while displacement constraints are imposed on the top two rigid bodies. A fine mesh is required for accurate crack path prediction.
Post-simulation results, including crack propagation, stress distribution, displacement, and XFEM outputs, can be accessed.
Workshop-2: Abaqus simulation of crack growth of a concrete wall under normal and transverse loading
This workshop examines the simulation of crack growth in a concrete wall subjected to both normal and transverse loads in Abaqus. The concrete wall is modeled as a three-dimensional part, and the crack plane is represented as a shell part.
For the concrete, the traction-separation law based on maximum principal stress and fracture energy is used. This material model is crucial for accurately simulating the physical behavior of crack propagation. A general static step is suitable for this type of analysis. The XFEM procedure is applied to model crack growth within the concrete wall, with the crack plane defined as the initial crack location. Fixed boundary conditions are applied at the bottom of the wall, and vertical and horizontal pressure loads are applied to the wall. The mesh size significantly influences the crack growth pattern.
As the vertical and horizontal pressure loads are applied, cracks begin to propagate, growing along the crack plane throughout the simulation.
Workshop-3: Abaqus simulation of crack growth of a bone under 3 points bending
This workshop explores the simulation of crack growth in bone subjected to three-point bending in Abaqus. The structural analysis of bones is an area of active research, with many researchers using the finite element method (FEM) to gain a deeper understanding of bone fracture mechanisms. However, most previous studies have only focused on stress or strain distribution patterns, without illustrating how fractures initiate, progress, or how fracture lines propagate. Bones can fracture in various ways; for instance, a closed fracture occurs when the bone breaks without damaging surrounding tissue or puncturing the skin, whereas a compound (or open) fracture involves damage to the skin and potential infection, making it more severe than simple fractures.
In this simulation, the bone is modeled as a two-dimensional part with elastic material properties, combined with the traction-separation law to simulate crack growth during the analysis. Static analysis and the XFEM procedure are used for this type of study.
Jacob –
Having completed all the lessons and workshops included in this package, I can confidently say that it has significantly enhanced my knowledge of ABAQUS/CAE. The combination of lessons and practical workshops provided a comprehensive learning experience, covering topics from software introduction to advanced simulations. It allowed me to develop a strong foundation in finite element analysis and apply it to various real-world scenarios effectively.
William –
To enhance your skills in using ABAQUS/CAE, I highly recommend going through the complete package, consisting of lessons and workshops. The lessons provide theoretical knowledge and an understanding of analysis types, while the workshops offer hands-on experience in simulating crack growth, analyzing structural behavior, and using advanced techniques like XFEM. This comprehensive approach will ensure you have a well-rounded skill set to tackle complex engineering projects.
Emma –
If you’re looking to undertake a specific project related to ABAQUS/CAE, the complete package will serve as an invaluable resource. By leveraging the knowledge gained from the lessons and workshops, you’ll be equipped to handle various simulation tasks. Identify the specific requirements of your project, such as crack growth analysis or modeling dynamic loading, and apply the relevant concepts and techniques from the package to accomplish your goals.
Charlotte –
For consultancy regarding ABAQUS/CAE and its applications, you can seek guidance from experts and consultants in the field. Many professionals specialize in finite element analysis and can provide valuable insights and advice tailored to your specific needs. They can help you optimize your simulations, troubleshoot any challenges you encounter, and offer recommendations for best practices in utilizing the software effectively.
Alexander –
To obtain a certificate for completing the lessons and workshops in this package, you should check if the provider offers a certification program. Typically, you would need to fulfill certain requirements, such as successfully completing all the lessons, workshops, and any associated assessments or exams. Once you meet the criteria, you can request a certificate to showcase your proficiency in ABAQUS/CAE.
Abigail –
If you’re preparing for a job and aiming to enhance your skills specifically for employment purposes, the complete package will provide a solid foundation. In addition to completing the lessons and workshops, consider exploring additional resources such as textbooks, online courses, or attending relevant industry conferences. Practical experience through internships or projects can also greatly contribute to your job readiness in the field of finite element analysis.
Scarlett –
In the case of a company interested in purchasing multiple packages, they can contact the provider or distributor to inquire about bulk purchase options. The provider may offer discounted rates for multiple packages, customized packages to meet specific company needs, or even enterprise-level solutions tailored for organizational requirements. Exploring such options will enable companies to efficiently equip their teams with the necessary tools and knowledge.
Henry –
Companies, institutes, and universities that have utilized this package have expressed high levels of satisfaction. The comprehensive nature of the lessons and workshops, along with practical simulations, allows learners to gain in-depth knowledge and hands-on experience. Testimonials and case studies from these organizations highlight the effectiveness of the package in enhancing skills, solving real-world engineering problems, and improving overall productivity.
Avery –
To request further information or express your satisfaction with the product, you can reach out to the provider or distributor of the package. They will be able to address any inquiries, provide additional support nowledge to realistic scenarios. These workshops cover various crack growth simulations, such as a reinforced concrete beam, a concrete wall, a bone, a concrete structure with wood shavings aggregates, the Koyna dam under seismic loading, and more. Additionally, there are workshops focusing on XFEM simulation and mechanical fracture parameters.
Harper –
By completing all the lessons and workshops included in this package, I have gained a comprehensive understanding of ABAQUS/CAE. The lessons covered a wide range of topics, starting with an introduction to ABAQUS/CAE and the finite element method. I learned about different types of analysis and gained insights into explicit analysis and plasticity hardening in Abaqus. The workshops provided hands-on experience in simulating crack growth in various scenarios, such as a reinforced concrete beam under bending, a concrete wall under different loading conditions, a bone under bending, and more. Additionally, the package includes a workshop on Dload and VDOALD subroutine, as well as a simulation of an ellipsoid crack in a pressure vessel using the Dload subroutine. This comprehensive coverage of topics and practical workshops has greatly enhanced my knowledge and skills in using ABAQUS/CAE.
Samuel –
To enhance your skills in using ABAQUS/CAE, I highly recommend going through the complete package, which consists of lessons and workshops covering various aspects of the software. The lessons start with an introduction to ABAQUS/CAE and the finite element method, providing a solid foundation for further learning. You will then delve into different types of analysis, gaining insights into explicit analysis and plasticity hardening in Abaqus. The workshops included in the package offer hands-on experience in simulating crack growth in different scenarios, such as a reinforced concrete beam, a concrete wall, a bone, a concrete structure with wood shavings aggregates, and even the Koyna dam under seismic loading. Additionally, there are workshops focusing on XFEM simulation of crack growth in concrete and a pressure vessel. Completing all these lessons and workshops will equip you with a comprehensive skill set to tackle a wide range of engineering projects using ABAQUS/CAE.
Isaac –
Having completed all the lessons and workshops in this package, I can attest to its effectiveness in preparing individuals for real-world applications of ABAQUS/CAE. The package includes a series of lessons and workshops that cover essential topics related to the software. The lessons cover an introduction to ABAQUS/CAE and the finite element method, providing a solid theoretical foundation. You will learn about different types of analysis and gain insights into explicit analysis and plasticity hardening in Abaqus. The workshops included in the package offer practical simulation exercises, allowing you to apply your knowledge to realistic scenarios. These workshops cover various crack growth simulations, such as a reinforced concrete beam, a concrete wall, a bone, a concrete structure with wood shavings aggregates, the Koyna dam under seismic loading, and more. Additionally, there are workshops focusing on XFEM simulation and mechanical fracture parameters. By completing all these lessons and workshops, you will develop a comprehensive skill set to successfully tackle complex engineering projects using ABAQUS/CAE.