• July 2, 2020
    9:00 am - 5:00 pm

Overview This course focuses on the vibrational analysis of rotating machinery in ANSYS Mechanical, including evaluation of critical speeds, Campbell diagrams, whirl orbits, and associated bearing implementation. One-dimensional, two-dimensional, and three-dimensional geometries are covered, as well as connection to non-rotating support structures. Relevant theory, product application, and hands-on workshops are all included with the course (more…)


  • July 3, 2020
    9:00 am - 5:00 pm

Overview In the design of Ball Grid Array (BGA) packaging design, solder joints are a frequent critical area. Learn how to improve the robustness and reliability of these parts using the capabilities of ANSYS multiphysics simulations. The topics covered in this course are: Fracture Mechanics Fatigue Creep versus Viscoplasticity Thermal Cyclic Modeling for the Calculation (more…)


  • July 17, 2020
    9:00 am - 5:00 pm

Overview The ANSYS HFSS 3D Layout course for high-speed printed circuit board design focuses on layered structures using the 3D Layout design type in HFSS and AEDT (ANSYS Electronic Desktop). Designed for brand new users, this course covers layer stack-up, layout viewing, choices of solvers, ports, pad-stacks, and hierarchy. Workshops include small differential via structures, (more…)


  • August 7, 2020
    9:00 am - 5:00 pm

Overview This course is designed to bridge the gap between procedurally oriented training seminars and mathematically oriented finite element method classes. The course material is derived from many decades of applied FEA experience and is presented in a clear style developed from years of FEA training and support. The course presents a variety of topics (more…)


  • August 14, 2020
    9:00 am - 5:00 pm

Overview Utilize the power of the rigid dynamics explicit solver for efficient and robust evaluation of mechanical systems containing complex assemblies of interconnected rigid parts undergoing large overall motion. Apply procedures for analysis of machine and mechanism systems such as vehicle suspensions, landing gear assemblies, robotic manipulators, gear trains, amusement rides, engine components, and an (more…)


  • August 21, 2020
    9:00 am - 5:00 pm

Overview This course is designed to provide the knowledge about the optimization workflow in ANSYS Workbench. The complete end-to-end procedure is shown from the original CAD to the final calculation on the optimized shape. The course includes information about the optimization methods and the general theory. It shows the basic as well as the advanced (more…)


  • August 28, 2020
    9:00 am - 5:00 pm

Overview This course is designed for existing users of ANSYS Fluent. You will learn and achieve an understanding of the basic theory of the models and computational methods for heat transfer applications. The knowledge gained will enable you to select the most appropriate modelling approaches for your target applications and simulation objectives. The advanced heat (more…)


  • September 4, 2020
    9:00 am - 5:00 pm

Overview Fatigue class is a 1-day training course for engineers wishing to use ANSYS Mechanical to analyze fatigue behavior. This course covers detailed information on Fatigue theory as well as numerical modeling. The course reviews the fundamentals of fatigue; history, stress/strain/energy based fatigue, numerical modeling of fatigue. The course also includes relevant “hands-on” workshops and (more…)


  • September 15, 2020 - September 16, 2020
    9:00 am - 5:00 pm

Overview Intended to be taken after the introductory Mechanical nonlinearities class, this 2-day course covers advanced nonlinear material options including advanced metal plasticity, viscoplasticity, viscoelasticity, creep and hyperelasticity. Course Description This training course teaches students how to effectively use ANSYS Mechanical to analyze structural problems involving nonlinear materials. Course Topics Include: Advanced Metal Plasticity Viscoplasticity Creep (more…)


  • September 29, 2020 - September 30, 2020
    9:00 am - 5:00 pm

Overview This course will enable you to develop the basic skills necessary to implement complete Explicit Dynamics solution procedures in ANSYS Mechanical. Efficiently simulate the dynamic response of highly transient, highly nonlinear physical phenomena like drop testing and high-speed impact. You’ll utilize the extensive library of nonlinear material models and body-to-body contact to produce faithful (more…)