Full Composite fatigue Add-on (Academic and industrial usage)

 1800.0
This package is designed to instruct users on how to utilize the composite fatigue modeling Add-on, which removes the need to write a subroutine for composite fatigue modeling. Instead, users can select the composite type, input material properties, and generate the subroutine by clicking a button. The Add-on includes four types of composites, and the generated subroutine for all types is the UMAT. These four types are Unidirectional, Woven, short fiber composites (chopped), and wood. The fatigue criteria used for each type are the same as its respective package. For example, the fatigue criteria for woven composites are identical to that used in the "Simulation of woven composite fatigue in Abaqus" package. This Add-on provides a simple graphical user interface for composite fatigue modeling, which can be utilized for both academic and industrial applications.

Full Composite damage Add-on (Academic and industrial usage)

 1800.0
(15)
This package will teach you how to use the composite damage modeling Add-on. The Add-on eliminates the need for writing a subroutine for composite damage modeling. Instead, you only need to select the desired composite type, input the material properties, and click a button. The Add-on will then generate the subroutine for you. The Add-on includes four types of composites: Unidirectional, Woven, short fiber composites (chopped), and wood. The generated subroutine for all types is the VUSDFLD. The damage criteria used in each type is the same as the one used in its respective package. For instance, the damage criteria for the woven composite is identical to the one used in the "Simulation of woven composite damage in the Abaqus" package. This Add-on offers a user-friendly graphical user interface for composite damage modeling, which can be used for academic and industrial purposes.

Composite simulation for experts-Part-3

 1340.0
(1)

Pay attention to the syllabus and availability file details. some of the packages are fully available and some of them are partially available. If this is partially available it takes at least two months to be completely available.

If you are a graduate or Ph.D. student, if you are a university professor or an expert engineer in the industry who deals with simulation software, you are definitely familiar with the limitations of this software in defining the material properties, loading or meshing, interaction properties, and etc. You have certainly tried to define the properties of materials based on advanced fracture theories in finite element software and are familiar with their limitations and problems. Now, here is your solution. Start writing subroutines in finite element software and overcome the limitations. With the tutorials in the Golden Package, you will learn how to write 8 subroutines in Abaqus software professionally.

Wood damage simulation with Abaqus subroutine | Wood damage FEM

 220.0

Wood, a natural material essential for various applications, can suffer damage that compromises its structural integrity. Therefore, damage prediction is vital for maintaining the reliability of both new and existing wooden structures. While experimental methods for predicting wood damage can be costly and complex, numerical simulations, such as those using wood damage FEM, offer a more efficient and safer alternative. These simulations, adaptable to different conditions and materials, allow for a comprehensive analysis of wood behavior. However, they may face challenges due to wood's complex properties. Well-known numerical models, such as the Hashin, Sandhaas, and Balsa, have been introduced to analyze damage in wooden structures. We have implemented them in Abaqus CAE, a powerful software. As the models are not defined in its material library, we have used the VUSDFLD subroutine. It enables failure prediction and stiffness degradation. This tutorial, with its step-by-step guide, helps you to write the VUSDFLD subroutine for the presented damage models, leveraging the capabilities of wood damage FEM.

Balsa wood fatigue simulation with Abaqus subroutine

 320.0
(1)
This training package focus on writing subroutines to simulate wood fatigue in Abaqus. In the "Balsa wood fatigue simulation with subroutine" package, the used fatigue theory of wood has been described. Then, the flowchart of the subroutine and writing subroutine line-by-line is explained. It helps users to develop the subroutine based on customized theory. Finally, the subroutine is implemented on the Abaqus model, and the results are discussed.

Wood Damage and Fatigue

 432.0
Master Wood Behavior: Damage and Fatigue Analysis Bundle This comprehensive Damage and Fatigue Analysis Bundle equips you with the expertise