Ansys Workbench 14.0: A Tutorial Approach - Master the Features and Benefits of Ansys Workbench 14.0 with Projects and Solutions
Ansys Workbench 14.0: A Tutorial Approach PDF
If you are an engineer, a student, or a hobbyist who wants to learn how to use Ansys Workbench 14.0 for performing engineering simulations, you might be looking for a comprehensive and easy-to-follow guide that can help you master this powerful software. In this article, we will introduce you to one of the best books that can teach you everything you need to know about Ansys Workbench 14.0: Ansys Workbench 14.0: A Tutorial Approach by Prof. Sham Tickoo and CADCIM Technologies. We will also give you some other useful resources and tips that can help you learn Ansys Workbench 14.0 faster and better.
ansys workbench 14.0 a tutorial approach pdf
What is Ansys Workbench?
Ansys Workbench is a software platform that enables you to perform various types of engineering simulations using finite element analysis (FEA) and computational fluid dynamics (CFD) methods. With Ansys Workbench, you can simulate the behavior of physical systems under different conditions, such as stress, strain, heat transfer, fluid flow, electromagnetics, acoustics, and more. You can also optimize your designs, test different scenarios, validate your results, and generate reports.
Ansys Workbench is composed of several modules that are integrated in a single environment. Some of the most common modules are:
Mechanical - for structural, thermal, modal, fatigue, fracture, contact, and nonlinear analysis
Fluent - for fluid flow and heat transfer analysis
CFX - for complex fluid flow and multiphysics analysis
Maxwell - for electromagnetic field analysis
ANSYS DesignModeler - for creating and modifying geometry models
ANSYS Meshing - for generating and editing mesh for the geometry
ANSYS DesignXplorer - for performing design optimization and sensitivity analysis
Why use Ansys Workbench?
It is versatile and powerful - it can handle complex and realistic problems involving multiple physics and domains
It is user-friendly and intuitive - it has a graphical user interface (GUI) that simplifies the simulation workflow and allows you to drag and drop components, parameters, and results
It is flexible and customizable - it allows you to create your own models, scripts, macros, and functions using various programming languages and tools
It is reliable and accurate - it uses advanced numerical methods and algorithms that ensure the quality and validity of the results
It is compatible and interoperable - it can import and export data from various formats and software, such as CAD, Excel, MATLAB, Python, etc.
It is supported and updated - it has a large and active community of users, developers, and experts who provide technical support, feedback, and updates
How to get Ansys Workbench 14.0?
If you want to use Ansys Workbench 14.0, you need to have a license and a compatible computer system. The license can be either commercial or academic, depending on your purpose and affiliation. The commercial license is for professional use and requires a fee, while the academic license is for educational use and is free or discounted for students, teachers, and researchers. You can obtain a license from the official Ansys website or from an authorized reseller.
The system requirements for Ansys Workbench 14.0 are:
Operating system: Windows XP/Vista/7/8/10 or Linux
Processor: Intel Pentium 4 or AMD Athlon 64 or higher
Memory: 2 GB RAM or more
Disk space: 4 GB or more
Graphics card: NVIDIA Quadro or ATI FireGL or higher
Internet connection: required for installation and activation
The installation steps for Ansys Workbench 14.0 are:
Download the installation file from the Ansys website or from the DVD provided by the reseller
Run the installation file as an administrator and follow the instructions on the screen
Select the components and modules that you want to install
Enter the license information when prompted
Wait for the installation to complete
Launch Ansys Workbench 14.0 from the start menu or the desktop icon
How to use Ansys Workbench 14.0?
Ansys Workbench 14.0 has a simple and logical workflow that consists of four main steps: creating a project, importing geometry, meshing, applying boundary conditions, solving, and post-processing. In this section, we will briefly explain each step and show you how to use the interface of Ansys Workbench 14.0.
Creating a project
A project is a file that contains all the information and data related to your simulation. To create a new project in Ansys Workbench 14.0, you need to:
Click on File > New Project or press Ctrl+N
Enter a name and a location for your project file
Select the analysis type that you want to perform from the toolbox on the left side of the screen. You can choose from various types of analysis, such as static structural, transient structural, steady-state thermal, transient thermal, fluid flow (Fluent), fluid flow (CFX), etc.
Drag and drop the analysis type from the toolbox to the project schematic on the right side of the screen. This will create a system that contains all the components and modules that are required for your analysis.
Save your project by clicking on File > Save Project or pressing Ctrl+S
Importing geometry
The geometry is the model that represents the physical system that you want to simulate. You can import an existing geometry from a CAD software or create a new geometry using ANSYS DesignModeler. To import or create a geometry in Ansys Workbench 14.0, you need to:
Double-click on the Geometry cell in your system. This will open ANSYS DesignModeler in a separate window.
If you want to import an existing geometry, click on File > Import External Geometry File or press Ctrl+I. Then browse to the location of your geometry file and select it. You can import geometry files from various formats, such as IGES, STEP, Parasolid, ACIS, etc.
Then use the tools and commands in ANSYS DesignModeler to create your geometry. You can create sketches, extrude, revolve, sweep, loft, blend, etc.
After you finish importing or creating your geometry, click on File > Save or press Ctrl+S to save your geometry file.
Close ANSYS DesignModeler and return to ANSYS Workbench 14.0. You should see your geometry in the Geometry cell of your system.
Meshing
The mesh is the discretization of the geometry into small elements that are used for the numerical solution of the simulation. You can generate and edit the mesh for your geometry using ANSYS Meshing. To mesh your geometry in Ansys Workbench 14.0, you need to:
Double-click on the Mesh cell in your system. This will open ANSYS Meshing in a separate window.
If you want to use the default mesh settings, click on Generate Mesh or press F5. This will create a mesh for your geometry using the automatic meshing algorithm and parameters.
If you want to customize the mesh settings, click on Mesh > Insert or right-click on the Mesh branch in the outline tree. Then select the type of mesh control that you want to apply, such as sizing, inflation, refinement, etc. You can also adjust the global mesh settings, such as relevance, smoothing, element order, etc.
After you finish generating or editing your mesh, click on File > Save or press Ctrl+S to save your mesh file.
Close ANSYS Meshing and return to ANSYS Workbench 14.0. You should see your mesh in the Mesh cell of your system.
Applying boundary conditions
The boundary conditions are the inputs and outputs of your simulation. They define the loads and constraints that are applied to your system, such as forces, pressures, temperatures, displacements, velocities, etc. You can apply and edit the boundary conditions for your system using Mechanical or Fluent or CFX depending on your analysis type. To apply boundary conditions in Ansys Workbench 14.0, you need to:
Double-click on the Setup cell in your system. This will open Mechanical or Fluent or CFX in a separate window.
If you are using Mechanical, click on Model > Insert or right-click on the Model branch in the outline tree. Then select the type of boundary condition that you want to apply, such as fixed support, force, pressure, temperature, etc. You can also insert other features, such as contacts, joints, springs, dampers, etc.
If you are using Fluent or CFX, click on Boundary Conditions > Insert or right-click on the Boundary Conditions branch in the outline tree. Then select the type of boundary condition that you want to apply, such as wall, inlet, outlet, symmetry, etc. You can also insert other features, such as sources, sinks, fans, porous media, etc.
Select the faces or edges or vertices of your geometry that you want to apply the boundary condition to. Then enter the values or expressions for the boundary condition parameters in the details view.
After you finish applying and editing your boundary conditions, click on File > Save or press Ctrl+S to save your setup file.
Close Mechanical or Fluent or CFX and return to ANSYS Workbench 14.0. You should see your setup in the Setup cell of your system.
Solving
The solving is the process of running the numerical solver that computes the solution of your simulation based on your geometry, mesh, and boundary conditions. You can run and monitor the solver for your system using Mechanical or Fluent or CFX depending on your analysis type. To solve your system in Ansys Workbench 14.0, you need to:
Double-click on the Solution cell in your system. This will open Mechanical or Fluent or CFX in a separate window.
If you are using Mechanical, click on Solve > Current LS or press F6. This will run the solver for your current load step and display the solution status and progress in the messages window.
click on Solution > Run Calculation or press F6. This will run the solver for your current iteration and display the solution status and progress in the messages window.
You can also adjust the solver settings, such as convergence criteria, time steps, iterations, etc. in the details view.
After the solver finishes running, click on File > Save or press Ctrl+S to save your solution file.
Close Mechanical or Fluent or CFX and return to ANSYS Workbench 14.0. You should see your solution in the Solution cell of your system.
Post-processing
The post-processing is the process of viewing and analyzing the results of your simulation. You can visualize and quantify the results for your system using Mechanical or Fluent or CFX depending on your analysis type. To post-process your system in Ansys Workbench 14.0, you need to:
Double-click on the Results cell in your system. This will open Mechanical or Fluent or CFX in a separate window.
If you are using Mechanical, click on Solution > Insert or right-click on the Solution branch in the outline tree. Then select the type of result that you want to view, such as stress, strain, displacement, temperature, etc.
If you are using Fluent or CFX, click on Results > Insert or right-click on the Results branch in the outline tree. Then select the type of result that you want to view, such as pressure, velocity, temperature, etc.
Select the faces or edges or vertices of your geometry that you want to view the result on. Then choose the display option that you want to use, such as contour, vector, streamline, etc.
You can also create charts, tables, reports, animations, etc. using the tools and commands in Mechanical or Fluent or CFX.
After you finish viewing and analyzing your results, click on File > Save or press Ctrl+S to save your results file.
Close Mechanical or Fluent or CFX and return to ANSYS Workbench 14.0. You should see your results in the Results cell of your system.
How to learn Ansys Workbench 14.0?
Ansys Workbench 14.0 is a complex and comprehensive software platform that requires a lot of practice and patience to learn. However, there are many resources and tips that can help you learn Ansys Workbench 14.0 faster and better. In this section, we will introduce you to some of the best resources and tips for learning Ansys Workbench 14.0.
Ansys Workbench 14.0: A Tutorial Approach PDF
One of the best resources for learning Ansys Workbench 14.0 is Ansys Workbench 14.0: A Tutorial Approach by Prof. Sham Tickoo and CADCIM Technologies. This book is a comprehensive and easy-to-follow guide that covers all the aspects and features of Ansys Workbench 14.0 using step-by-step tutorials and examples. The book is divided into 12 chapters that cover topics such as:
Introduction to Ansys Workbench 14.0
Structural analysis using Ansys Mechanical
Modal analysis using Ansys Mechanical
Thermal analysis using Ansys Mechanical
Buckling analysis using Ansys Mechanical
Static structural analysis using Ansys Mechanical APDL
Fluid flow analysis using Ansys Fluent
Fluid flow analysis using Ansys CFX
Multiphysics analysis using Ansys Workbench
Optimization analysis using Ansys DesignXplorer
Electromagnetic analysis using Ansys Maxwell
Project management using Ansys Workbench
The book also includes a CD-ROM that contains all the files and models used in the tutorials and exercises. The book is suitable for beginners as well as advanced users who want to learn Ansys Workbench 14.0 in a practical and efficient way.
Other books and tutorials
Besides Ansys Workbench 14.0: A Tutorial Approach, there are many other books and tutorials that can help you learn Anys Workbench 14.0. Some of them are:
Engineering Analysis with ANSYS Workbench 14 by Y. Nakasone and S. Yoshimoto. This book is a comprehensive and systematic introduction to Ansys Workbench 14 that covers topics such as solid mechanics, fluid mechanics, heat transfer, and electromagnetics using examples and exercises.
ANSYS Workbench Tutorial Release 14 by K. Lawrence. This book is a collection of tutorials that cover topics such as static structural analysis, modal analysis, thermal analysis, fluid flow analysis, and optimization analysis using Ansys Workbench 14.
ANSYS Tutorial Release 14 by K. Saeed Moaveni. This book is a collection of tutorials that cover topics such as truss analysis, beam analysis, plane stress analysis, plane strain analysis, axisymmetric analysis, and three-dimensional analysis using Ansys Mechanical APDL.
ANSYS Workbench 14.0 for Engineers and Designers by S. Tickoo and D. CADCIM Technologies. This book is a comprehensive and easy-to-follow guide that covers topics such as geometry modeling, meshing, structural analysis, thermal analysis, fluid flow analysis, and electromagnetics analysis using Ansys Workbench 14.
ANSYS Fluent Tutorial Guide by ANSYS Inc. This book is a collection of tutorials that cover topics such as laminar flow, turbulent flow, multiphase flow, heat transfer, combustion, acoustics, and more using Ansys Fluent.
ANSYS CFX Tutorial Guide by ANSYS Inc. This book is a collection of tutorials that cover topics such as laminar flow, turbulent flow, multiphase flow, heat transfer, combustion, rotating machinery, and more using Ansys CFX.
You can also find many online tutorials and videos that can help you learn Ansys Workbench 14.0 on websites such as YouTube, Udemy, Coursera, edX, etc.
Ansys Learning Hub
Another great resource for learning Ansys Workbench 14.0 is the Ansys Learning Hub. The Ansys Learning Hub is the official learning platform from Ansys that provides you with access to various courses, webinars, workshops, simulations, and certifications on Ansys products and solutions. The Ansys Learning Hub allows you to:
Learn at your own pace and convenience
Choose from a variety of topics and levels
Interact with experts and peers
Earn certificates and badges
Track your progress and performance
To access the Ansys Learning Hub, you need to have an account and a subscription from the Ansys website or from an authorized reseller.
Conclusion
Ansys Workbench 14.0 is a powerful and versatile software platform that enables you to perform various types of engineering simulations using finite element analysis and computational fluid dynamics methods. With Ansys Workbench 14.0, you can simulate the behavior of physical systems under different conditions, optimize your designs, test different scenarios, validate your results, and generate reports.
meshing, applying boundary conditions, solving, and post-processing. You can also learn Ansys Workbench 14.0 faster and better by using various resources and tips, such as books, tutorials, and the Ansys Learning Hub.
We hope that this article has given you a clear and comprehensive overview of Ansys Workbench 14.0 and its features and benefits. If you are interested in learning more about Ansys Workbench 14.0 or other Ansys products and solutions, you can visit the official Ansys website or contact us for more information.
FAQs
Here are some of the frequently asked questions about Ansys Workbench 14.0:
What is the difference between Ansys Workbench and Ansys Mechanical APDL?
Ansys Workbench is a software platform that integrates various modules and components for performing engineering simulations using finite element analysis and computational fluid dynamics methods. Ansys Mechanical APDL is one of the modules that can be used in Ansys Workbench for performing structural analysis using the ANSYS Parametric Design Language (APDL). Ansys Mechanical APDL can also be used as a standalone software for performing structural analysis using a text-based interface.
What are the advantages of using Ansys Workbench over other simulation software?
Ansys Workbench has many advantages over other simulation software, such as:
It is versatile and powerful - it can handle complex and realistic problems involving multiple physics and domains
It is user-friendly and intuitive - it has a graphical user interface that simplifies the simulation workflow and allows you to drag and drop components, parameters, and results
It is flexible and customizable - it allows you to create your own models, scripts, macros, and functions using various programming languages and tools
It is reliable and accurate - it uses advanced numerical methods and algorithms that ensure the quality and validity of the results
It is compatible and interoperable - it can import and export data from various formats and software, such as CAD, Excel, MATLAB, Python, etc.
It is supported and updated - it has a large and active community of users, developers, and experts who provide technical support, feedback, and updates
How much does Ansys Workbench 14.0 cost?
The cost of Ansys Workbench 14.0 depe