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Structural Mechanics Simulation with Ansys Mechanical
This course is your introduction to structural mechanics with Ansys and the perfect foundation for all further Ansys Mechanical courses.
Despite its ever-expanding functionalities, Ansys Mechanical’s intuitive user interface makes it increasingly easy to operate. Off-the-shelf analysis templates give beginners as well as experienced users structured workflows encompassing complex tasks and multi-step procedures. ...
Our offer in detail
This training is offered as a 4-day course or alternatively as
a self-paced eLearning course, in which you should invest a total of 4 learning day(s) with your own time allocation.
01 Introduction to simulation with Ansys Mechanical
- An overview of the ANSYS world and when you should use simulation
- Brush up on the key points of the finite element method
- Use the right licenses and practice the project scheme
- Bidirectional work with a CAD program
02 Meshing fundamentals
- Introduction into meshing
- Important background knowledge to understand what a “good” mesh is
- An initial detailed introduction to the simulation environment
- Create first meshes to calculate common tasks
03 Fundamentals of boundary conditions
- Get to know more functions in the GUI
- The most common boundary conditions for structural mechanics tasks
- What to take into account for a correct bearing
- Comparative examples for correct and incorrect boundary conditions
04 Fundamentals of evaluation
- Operate the interface for result evaluation
- Primarily consider deformations, expansions and stresses
- Contrast, compare and evaluate results
- Export results to e.g., draw up a report
05 Material definition and parameterization
- Fundamentals of material data and tips on where material data can be obtained
- Which material parameters you need and what they mean
- Flexibly construct simulation with the aid of parameters
- Introduction to carrying out batch jobs with defined parameter lists
06 Bonded contact and shared topology
- Quickly and securely combine components with contact conditions
- Background information for a basic understanding of bonded contacts
- Combine components with the aid of continuous meshes
- Pros and cons of contact-connected and mesh-connected assemblies
07 Frequently used boundary conditions for more flexibility
- Additional boundary conditions for model bearing and loading
- Advantages of boundary conditions with remote points
- Replace components with point masses and springs
- Comparative tasks to understand possible sources of errors
08 Evaluation options to check results
- Recognize and understand stress singularities, and establish remedies
- Set up force and moment balance over section planes
- Discover even more evaluation flexibility
- How to proceed after the stress evaluation
09 Sub-models and modal analyses
- Link analyses and cells, and learn when you should do this
- Evaluate a detail of a large model with the aid of sub-modeling
- Entry into dynamics: Calculate a component group using model analysis
- What natural frequencies are used for in structural mechanics
10 Frequently used meshing settings for more flexibility
- Additional meshing methods and areas of application
- Efficiently improve mesh quality with global settings
- Prepare and mesh thin-walled components
- Combine the meshes of different shell bodies
11 Load step calculation and bolt prestressing
- Definition and calculation of load spectra
- Calculate loads and bearings in several steps
- Prestress and evaluate assemblies with bolts
- Further insight into the Ansys file management system
12 Delving deeper into the evaluation of results
- Evaluate the results of different calculation steps
- Create results from load case combinations
- Insight into programming/automation with ACT
- Export results for further processing outside of Ansys
13 Processing external data and structured work
- Input existing external meshes into Ansys
- Import, interpolate and evaluate measured field data
- Overview of temperature field analyses
- Structured work with assembled components
14 First steps in nonlinear structural mechanics
- Introduction to the world of nonlinearities
- Typical challenges of nonlinearities
- Take into account the effects of large deformations
- Introduction to nonlinear contact calculations with an example
15 Advantages of nonlinearities and efficient evaluation
- Advantages of a nonlinear boundary condition
- Comparison with discussion about different boundary conditions
- Calculate and evaluate 2D analyses, e.g., with diagrams
- Even more efficiency when working on the evaluation
16 Consolidate knowledge and ensure transfer
- Opportunity to discuss further topics of interest
- Repetition or deeper exploration of topics of interest
- Discussion of drawings that have been brought along, questions, ideas in the group
- Suggestions on further topics and training courses
Despite its ever-expanding functionalities, Ansys Mechanical’s intuitive user interface makes it increasingly easy to operate. Off-the-shelf analysis templates give beginners as well as experienced users structured workflows encompassing complex tasks and multi-step procedures. On the other hand, the appropriate modeling or idealization of details – such as representation of bonded elements – remain a core competence of the prudent simulation engineer. The same applies to the decisions made on the user end: Where should the model boundary be set? Which analysis type should be chosen? What boundary conditions and loads should be applied? In which areas does it make sense to think about a particular meshing strategy and where is this effort not justified?
Whether you’re a graduate, design engineer, or development engineer looking for the best way to begin or switch to simulation with Ansys Mechanical, we’ll help you to develop your knowledge with this basic seminar, giving you both a solid foundation and the practical skills required to carry out successful structural mechanics simulations in your everyday professional life. With the optimized mix of introduction and best practice tips, you will quickly find the right start and lay the foundation for all further courses in the field of structural mechanics.
All course modules are designed to familiarize you with the requisite background knowledge and, using practical examples, ensure that this knowledge is consolidated promptly through software-based exercises. After this training, you will be able to solve and assess your own simulation tasks in Ansys Mechanical.
A selection of our lecturers, who provide you with the latest simulation knowledge and its implementation in practice
Dr.-Ing. Markus Kellermeyer
Dr. sc. ETH Manfred Maurer
Do you have questions on the training or the eLearning?
If you book through your university, you will receive a 50% discount on the stated fee on training courses and eLearning courses.
For more information on the validity and how booking with the code ACADEMIC50 works, please visit our page on training for academic users.
Straight after you sign up, an automatic confirmation of receipt will be sent to the email addresses you provided. Once you have successfully verified the data you provided, you will receive your personalized sign-up confirmation, containing further information on course fees, the billing address, etc., by email within two to three working days.
As soon as the minimum number of attendees has been reached, you will receive a final training confirmation containing further information on how to get to the venue. We recommend that you wait until you have received this final confirmation before booking your travel and accommodation.
If the minimum number of attendees is not reached, we reserve the right to cancel the training seven days before it is due to start at the latest. We are happy to help you change your booking to an alternative date. Please note that we accept no liability for hotel or travel bookings that attendees have already made.
Usually the training courses start at 9:00 am and end at 5:00 pm of the respective local time. The actual course times will be stated in the booking confirmation. Please note that, depending on the training host, there may be a possible time shift between your and the provider's local time. Therefore all local times are provided with the valid time shift to Greenwich Mean Time (GMT).
To get a clear impression of our online learning format, we offer you a trial allowing you access to the starting module of an eLearning course of your choice. No costs, no cancellation period or anything similar. Moreover, with this free test access you can check all the technical requirements for a smooth learning process. You can easily request the free module from any eLearning course.
Each online course day comprises four eLearning modules. You should ideally allow 90 to 120 minutes of uninterrupted learning time for each module. This will allow you to acquire the knowledge provided by a module and to consolidate it through quiz questions and Ansys exercises. By dividing each module into micro learning units, you can also make good use of smaller time windows, such as on your commute.
Prerequisite for the use of the eLearning courses is the use of a personal access to the CADFEM learning platform.
Upon purchase, the duration of use of your eLearning course is 12 months. After expiration of the usage period you have access to your completed eLearning course for another 12 months.
As a user of a learning subscription plan, the duration of use of your flat rate is 12 months. After this period of use has expired, you will have access to your completed eLearning course for a further 12 months.
Dr. sc. Jörg Helfenstein
What CADFEM customers are saying
Director, EC2 Modélisation
The training provided by CADFEM has allowed the entire team to become familiar with Mechanical. It also allows us to imagine new uses for Ansys, increasing the number of projects we plan to use it for.
System Developer, EOS GmbH
This makes learning fun! The entire competence of simulation experts concentrated into a high-quality eLearning production.
The right training, hardware and additional software products are the keys to success when it comes to a quick introduction to simulation.