Finite Element Simulations with ANSYS Workbench 17: Case Studies and Applications
Finite Element Simulations with ANSYS Workbench 17 download
If you are interested in learning how to perform finite element simulations using ANSYS Workbench 17, you have come to the right place. In this article, I will explain what finite element analysis is, what ANSYS Workbench is, why you should use it for your simulations, how to download and install it, and how to use it step by step. By the end of this article, you will be able to perform your own finite element simulations with confidence and ease.
Finite Element Simulations with ANSYS Workbench 17 download
Introduction
Finite element analysis (FEA) is a numerical method for solving complex engineering problems involving structures, fluids, heat transfer, electromagnetics, and more. FEA divides a large problem into smaller, simpler parts called finite elements. The behavior of each element is described by a set of equations that are solved by a computer. The results from all the elements are then combined to obtain the solution for the whole problem.
ANSYS Workbench is a software platform that integrates various tools for performing FEA and other types of simulations. ANSYS Workbench 17 is the latest version of the software that was released in 2017. It has many features and enhancements that make it easier and faster to create, solve, and analyze simulation models.
Why use ANSYS Workbench 17 for finite element simulations? Here are some of the benefits:
It has a user-friendly graphical interface that allows you to drag and drop components, connect them with wires, and modify their properties.
It supports multiple physics domains such as structural mechanics, fluid dynamics, thermal effects, electromagnetics, acoustics, and more.
It has a powerful geometry modeling tool that lets you create complex shapes from basic primitives or import them from CAD software.
It has a robust meshing tool that automatically generates high-quality meshes for your models or allows you to customize them manually.
It has a wide range of solvers that can handle linear and nonlinear problems, static and dynamic problems, steady-state and transient problems, and more.
It has a comprehensive post-processing tool that lets you visualize and interpret the results of your simulations using graphs, charts, animations, contours, vectors, etc.
It has a parametric design tool that lets you optimize your designs by changing input parameters and evaluating their effects on output responses.
It has a project management tool that lets you organize your simulation files, track their dependencies, and update them automatically when changes occur.
How to download and install ANSYS Workbench 17
If you want to download and install ANSYS Workbench 17 on your computer, you need to follow these steps:
System requirements
Before you download ANSYS Workbench 17, you need to make sure that your computer meets the minimum system requirements for running the software. According to SDC Publications, these are the system requirements for ANSYS Workbench 17:
Operating system: Windows 7, 8, 10 (64-bit only)
Processor: Intel or AMD with SSE2 support
Memory: 8 GB RAM or more
Disk space: 22 GB or more
Graphics card: NVIDIA Quadro or AMD FirePro with 1 GB VRAM or more
Internet connection: Required for downloading and activating the software
Download options
There are two ways to download ANSYS Workbench 17: from the official website or from a third-party source. The official website offers a free trial version for students and a paid version for professionals. The third-party source offers a cracked version that bypasses the license verification.
The official website is https://www.ansys.com/products/academic/free-student-products. Here, you can choose between ANSYS Student and ANSYS Academic. ANSYS Student is a free version that has limited functionality and can be used for personal and educational purposes only. ANSYS Academic is a paid version that has full functionality and can be used for research and commercial purposes. To download either version, you need to register with your email address and fill out a form with some details.
The third-party source is https://getintopc.com/softwares/simulators/ansys-products-17-free-download/. Here, you can download a cracked version of ANSYS Workbench 17 that has full functionality and does not require any license verification. However, this option is illegal and risky, as it may contain viruses, malware, or spyware that can harm your computer or compromise your data.
I recommend that you download ANSYS Workbench 17 from the official website, as it is safer and more ethical. However, the choice is yours.
Installation steps
Once you have downloaded ANSYS Workbench 17, you need to install it on your computer. The installation steps may vary depending on the version and source of your download, but they are generally similar. Here are the common steps:
Extract the downloaded file to a folder on your computer.
Run the setup.exe file as administrator.
Follow the instructions on the screen to select the installation options and agree to the terms and conditions.
Wait for the installation to complete.
If you downloaded the official version, activate the software using your email address and license key.
If you downloaded the cracked version, copy and paste the crack file to the installation folder and replace the original file.
Launch ANSYS Workbench 17 from your desktop or start menu.
How to perform finite element simulations with ANSYS Workbench 17
Now that you have downloaded and installed ANSYS Workbench 17, you are ready to perform finite element simulations with it. In this section, I will guide you through the basic steps of creating, solving, and analyzing a simulation model using ANSYS Workbench 17.
Overview of the workflow
The workflow of performing finite element simulations with ANSYS Workbench 17 consists of four main stages: geometry modeling, meshing, analysis setup, and post-processing. Each stage corresponds to a component in the ANSYS Workbench interface. You can access these components by dragging and dropping them from the toolbox to the project schematic. You can also connect these components with wires to establish data transfer between them. The following figure shows an example of a project schematic with four components: Geometry, Mesh, Static Structural, and Results.
![Project schematic](https://www.sdcpublications.com/images/book_large/978-1-63057-088-0.jpg) The Geometry component allows you to create or import a geometry model for your simulation. You can use the built-in DesignModeler tool or an external CAD software such as SolidWorks or AutoCAD.
The Mesh component allows you to generate or edit a mesh for your geometry model. A mesh is a collection of nodes and elements that discretize your model into smaller parts. You can use the built-in Meshing tool or an external meshing software such as ICEM CFD or HyperMesh.
How to set up and solve the analysis
The Static Structural component allows you to set up and solve a static structural analysis for your model. A static structural analysis calculates the displacements, stresses, strains, and forces in structures or components caused by external loads that do not induce significant inertia and damping effects. You can use the built-in Mechanical tool or an external solver such as ANSYS APDL or ANSYS LS-DYNA.
To set up and solve a static structural analysis with ANSYS Workbench 17, you need to follow these steps:
Double-click on the Static Structural component in the project schematic to open the Mechanical tool.
In the Mechanical tool, you can see the outline tree on the left, the graphics window on the right, and the details window at the bottom.
In the outline tree, right-click on the Model branch and select Import Geometry > Browse. Then, select the geometry file that you created or imported in the Geometry component.
In the outline tree, right-click on the Engineering Data branch and select Edit. Then, select the material that you applied to your model in the Geometry component. You can also add more materials or edit their properties if needed.
In the outline tree, expand the Model branch and right-click on the geometry part. Then, select Assign Material > From Engineering Data. Then, select the material that you want to assign to your part.
In the outline tree, right-click on the Static Structural branch and select Insert > Fixed Support. Then, select the faces or edges of your model that you want to constrain from moving.
In the outline tree, right-click on the Static Structural branch and select Insert > Force. Then, select the faces or edges of your model that you want to apply a force load. You can specify the magnitude and direction of the force in the details window.
In the outline tree, right-click on the Solution branch and select Solve. Then, wait for the solver to finish running and display a green check mark.
How to post-process and visualize the results
The Results component allows you to post-process and visualize the results of your analysis. You can use various tools and methods to display and interpret different aspects of your simulation results such as displacements, stresses, strains, forces, etc. You can also export your results to other formats or applications for further processing or reporting.
To post-process and visualize your results with ANSYS Workbench 17, you need to follow these steps:
Double-click on the Results component in the project schematic to open it.
In the Results component, you can see a list of available result items on the left and a graphics window on the right.
Select a result item from the list to display it in the graphics window. You can use various options and settings to change how the result is displayed such as color map, contour levels, legend, etc.
You can also create new result items by right-clicking on an existing result item and selecting Define Calculated Result. Then, you can specify a formula or expression to calculate a new result based on existing results.
You can also create charts or graphs by right-clicking on an existing result item and selecting Chart > XY Plot. Then, you can specify which variables to plot on the x-axis and y-axis.
You can also create animations by right-clicking on an existing result item and selecting Animate > Time History. Then, you can specify how many frames and how fast to play the animation.
You can also export your results by right-clicking on an existing result item and selecting Export > To File. Then, you can specify which format and location to save your results file.
Conclusion
In this article, I have shown you how to perform finite element simulations with ANSYS Workbench 17. I have explained what finite element analysis is, what ANSYS Workbench is, why you should use it for your simulations, how to download and install it, and how to use it step by step. I hope you have found this article helpful and informative. If you have any questions or feedback, please feel free to leave a comment below.
FAQs
Here are some frequently asked questions and answers about finite element simulations with ANSYS Workbench 17:
Q: How can I learn more about finite element analysis and ANSYS Workbench?
A: You can learn more about finite element analysis and ANSYS Workbench by reading books, articles, blogs, tutorials, videos, courses, etc. that are available online or offline. Some of the recommended resources are:
Finite Element Simulations with ANSYS Workbench 17 by Huei-Huang Lee
ANSYS Workbench - Finite Element Analysis for Engineers by Sijal Ahmed
ANSYS Workbench Tutorial - Introduction to Static Structural by DrDalyO
ANSYS Blog
ANSYS Resources
Q: How can I get a license for ANSYS Workbench 17?
A: You can get a license for ANSYS Workbench 17 by purchasing it from the official website or from an authorized reseller. You can also get a free trial version for students or a cracked version from a third-party source. However, the latter option is illegal and risky.
Q: How can I troubleshoot errors or problems with ANSYS Workbench 17?
A: You can troubleshoot errors or problems with ANSYS Workbench 17 by checking the following:
Your system requirements and compatibility
Your installation and activation process
Your geometry and mesh quality and validity
Your analysis setup and solver settings
Your result interpretation and verification
The ANSYS Help documentation and online forums
The ANSYS Customer Portal and Technical Support
Q: How can I improve my simulation performance and accuracy with ANSYS Workbench 17?
A: You can improve your simulation performance and accuracy with ANSYS Workbench 17 by following these tips:
Simplify your geometry model as much as possible without losing essential features
Use appropriate mesh size, type, and refinement for your model and analysis type
Use appropriate material properties, boundary conditions, and loads for your model and analysis type
Use appropriate solver type, method, and options for your model and analysis type
Use appropriate result items, display options, and post-processing tools for your model and analysis type
Validate your results against analytical solutions, experimental data, or other sources of reference
Perform sensitivity analysis, parametric study, or optimization to explore the effects of input parameters on output responses
Q: How can I share my simulation results with others?
A: You can share your simulation results with others by exporting them to various formats or applications such as:
Images or videos for visual presentation
Data files or spreadsheets for numerical analysis
Reports or documents for textual explanation
Presentation slides or web pages for interactive demonstration
CAD files or STL files for further modeling or printing
I hope you have enjoyed reading this article and learned something new. If you want to learn more about finite element simulations with ANSYS Workbench 17, you can check out the resources that I have mentioned in the FAQs section. Thank you for your time and attention. 71b2f0854b