ANSYS Mechanical Rigid Body Dynamics
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 innumerable variety of industrial conveyors, drives, indexers, linkages, and the like. Learn the comparative strengths of the explicit and implicit solvers, and how to use both approaches in a connected workflow for a best-of-both-worlds capability.
Upon successful completion of this course, the student will be able to:
Carry out the basic end-to-end rigid body dynamics analysis procedure in ANSYS Mechanical.
Understand the advantages and disadvantages of using the rigid dynamics explicit solver for analysis problems involving large motion.
Demonstrate a basic knowledge of the definition and use of bodies and joints for constructing multibody analysis systems.
Construct an analysis system that includes the large motion of both rigid and flexible bodies.
- Completion of the ANSYS Mechanical Linear and Nonlinear Dynamics course is required.
Target Audience: Primarily Mechanical Engineers, including Mechanism and Machine Design Engineers, Automotive Engineers, Aerospace Engineers, Dynamics Engineers, Consumer Products Engineers, and similar sub disciplines.
Teaching Method: Lectures and practical hands-on workshops to validate acquired knowledge.
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