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ব্যানার হাউজ অনলাইন
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Finite Element Simulations With ANSYS Workbench 17 Download


Finite Element Simulations with ANSYS Workbench 17 download




Finite element analysis (FEA) is a powerful and widely used technique for solving complex engineering problems. FEA can help you design, optimize, and validate your products, as well as understand their behavior under various loading and environmental conditions. However, FEA can also be challenging and time-consuming, especially if you are not familiar with the software tools and methods involved.


One of the most popular and comprehensive FEA software packages is ANSYS Workbench, which offers a user-friendly interface and a variety of analysis systems and solvers. ANSYS Workbench can handle linear and nonlinear, static and dynamic, structural and thermal, fluid and electromagnetic, and many other types of problems. ANSYS Workbench also supports parametric modeling, optimization, meshing, post-processing, and scripting capabilities.




Finite Element Simulations with ANSYS Workbench 17 download



If you want to learn how to use ANSYS Workbench effectively and efficiently, you may benefit from a book that guides you through the process step by step. One such book is Finite Element Simulations with ANSYS Workbench 17 by Huei-Huang Lee. This book is a comprehensive and easy to understand workbook that covers the basics and advanced topics of FEA using ANSYS Workbench. The book is printed in full color and utilizes rich graphics and instructions to help you perform finite element simulations using ANSYS Workbench.


What does the book offer?




The book offers 27 real-world case studies that are used throughout the book. Many of these case studies are industrial or research projects that you build from scratch. Prebuilt project files are available for download should you run into any problems. Companion videos, that demonstrate exactly how to perform each tutorial, are also available. The book covers the following topics:


  • Sketching: how to create 2D sketches using geometry tools and constraints.



  • 2D Simulations: how to perform static structural, modal, harmonic response, transient structural, thermal, and coupled-field analyses on 2D models.



  • 3D Solid Modeling: how to create 3D solid models using extrude, revolve, sweep, loft, blend, chamfer, fillet, pattern, shell, and boolean operations.



  • 3D Simulations: how to perform static structural, modal, harmonic response, transient structural, thermal, and coupled-field analyses on 3D solid models.



  • Surface Models: how to create surface models using sketching, extrude, revolve, sweep, loft, blend, chamfer, fillet, pattern, shell, mid-surface, and boolean operations.



  • Line Models: how to create line models using sketching, extrude, revolve, sweep, loft, blend, chamfer, fillet, pattern, shell, beam section calculator, and boolean operations.



  • Meshing: how to generate high-quality meshes using sizing controls, inflation layers, mapped face meshing, sweep meshing, tetrahedron meshing, hexahedron meshing, and mesh metrics.



  • Buckling and Stress Stiffening: how to perform linear buckling analysis and account for stress stiffening effects in nonlinear analysis.



  • Modal Analysis: how to perform natural frequency extraction and mode shape visualization for linear and nonlinear systems.



  • Transient Structural Simulations: how to perform time-dependent analysis for linear and nonlinear systems with various loading conditions.



  • Nonlinear Simulations: how to perform nonlinear analysis for systems with large deformations, contact interactions, friction effects, and material nonlinearity.



  • Nonlinear Materials: how to define nonlinear material models such as elastic-plastic, hyperelastic, viscoelastic, and creep.



  • Explicit Dynamics: how to perform explicit dynamics analysis for systems with high-speed impact, large deformation, and material failure.



  • Optimization: how to perform optimization analysis for systems with design variables, objectives, and constraints.



How to download the book?




If you are interested in downloading the book Finite Element Simulations with ANSYS Workbench 17 by Huei-Huang Lee, you can do so from the publisher's website. The book costs $53.00 for the eBook version and $75.00 for the paperback version. You will also get access to the prebuilt project files and companion videos when you purchase the book. Alternatively, you can also find the book on other online platforms such as Google Books and Routledge. However, you may not get access to the project files and videos from these sources.


Conclusion




Finite Element Simulations with ANSYS Workbench 17 by Huei-Huang Lee is a great resource for anyone who wants to learn FEA using ANSYS Workbench. The book covers a wide range of topics and provides many examples and exercises to help you master the software. The book is also suitable for self-study, as well as for classroom use. Whether you are a beginner or an advanced user of ANSYS Workbench, you will find this book useful and informative.




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