In this training package, you will learn how to implement custom boundary conditions in Abaqus by developing a Fortran DISP subroutine that calculates nodal displacements using mathematical stretch functions (lam1, lam2) and specific deformation angles. The project demonstrates the structural organization of Finite Element models, specifically focusing on defining material plasticity and enforcing linear constraints between degrees of freedom. By analyzing the code, you will gain the practical skills to prescribe precise non-linear loading paths for specific node sets, allowing for advanced control over structural deformation within a simulation.

This course is designed for advanced finite element analysts and structural engineers who need to master the implementation of custom boundary conditions and non-linear loading paths within Abaqus. It specifically targets those looking to move beyond standard software constraints by learning to develop Fortran-based DISP subroutines to prescribe complex, time-dependent nodal displacements and manage multi-point constraints. By focusing on the direct manipulation of input files, the material provides the technical expertise required to simulate intricate structural deformations and material plasticity in high-fidelity mechanical models.

Understanding the logic behind the Two-Factor-Scaling (2FS) criterion and complex subroutines like disp is incredibly difficult without expert guidance. This package bridges that gap by providing a line-by-line investigation of the Abaqus models and the Fortran code. Through practical workshop, you will gain the technical expertise to confidently implement, validate, and customize advanced fracture simulations for large-scale structures.

The PDF and Video provided in this training are in English. They are error-free, and presented in a clear and straightforward manner, making it easy for anyone with a basic understanding of English to follow.

We fully and unconditionally guarantee the accuracy and functionality of our content, ensuring it matches the descriptions provided on our website. This guarantee covers any discrepancies between the training and the presented syllabus, as well as any issues with the files, code, and videos you receive. For more information you can check the Terms and Conditions.

The files included in this training are checked on Abaqus 2022. However, we have provided the input (INP) files to allow you to run the simulations on other versions as well. Please note that subroutine arguments may vary slightly between Abaqus releases. If you encounter any version-specific errors, you may need to adjust these parameters manually; however, we will do our best to assist you if possible.

By purchasing this package, you will get access to the following:

• Training video: To facilitate your learning experience, we provide video tutorials that complement the PDF guide. These videos offer an in-depth explanation of the code and guide you through each workshop, demonstrating exactly how to analyze the files and interpret the results.

• PDF file: Upon purchasing this training package, you will receive a comprehensive PDF Guide. This document covers all the necessary theories and mathematical formulations. Furthermore, we provide a detailed line-by-line (or block-by-block) explanation of the subroutines, ensuring you understand exactly how the code is structured and implemented.

• Abaqus inp File You will receive full access to the Abaqus inp file for the workshop, along with the Fortran source code, allowing you to keep and utilize them for your own projects.

Yes, you can receive this training in a language other than English, which includes an additional fee. If you are interested, please contact our online chat or support email for more information.

Yes, depending on the modifications you require, we can implement the changes you need. To learn more about the terms and conditions for such custom orders, please contact our support email or our online chat.