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There are currently no scheduled courses. Please check back soon or contact us to find out when a course will be available.

This class will raise your SOLIDWORKS Simulation FEA skills to the next level! It offers hands-on experience on the use of SOLIDWORKS Simulation Premium nonlinear module. The 2-day course provides an overview on a wide range of nonlinear structural/mechanical analysis topics. You will learn how to deal with models that exhibit large displacements and/or yielding, discuss and practice the use of many material models available in SOLIDWORKS Simulation and, most importantly, how to drive a non-linear analysis to successful completion. (2 days)

Prerequisites: Must have attended the basic SolidWorks Simulation class, or must have an experience with SOLIDWORKS + working basic knowledge of finite elements and of basic mechanical principles

Who should attend: Designed for users who would like to become productive fast, the nonlinear course offers hands-on experience on the use of SOLIDWORKS Simulation nonlinear module. The two-day course provides an overview on a wide range of nonlinear structural/mechanical analysis topics.

Length: 2 days.

Time: 9:00 am to 5:00 pm.

Topics Covered:

  • Geometric Nonlinearities
  • Large displacements problems
  • Large strain formulation

Material Nonlinearities

  • Nonlinear elasticity
  • Hyperelasticity (Mooney-Rivlin, Ogden)
  • Plasticity (von Mises, isotropic/kinematic/mixed hardening rules)
  • Temperature dependent material properties
  • Visco-elasticity and creep

Contact (Boundary) Nonlinearities

  • 3D nonlinear gap/contact analysis (with or without material nonlinearities).

Numerical Procedures

  • Solution control techniques (force, displacement, and Arc-Length controls)
  • Equilibrium Iterations schemes (Newton-Raphson, modified Newton-Raphson)
  • Termination schemes (convergence and divergence criteria)

Special Topics

  • Adaptive automatic stepping algorithm
  • Prescribed non-zero displacements associated with time curves
  • Deformation dependent loading
  • Analysis stabilization techniques

Viewing the Results

  • Deflected shape plots
  • Displacement and stress color filled contour plots
  • Animation of deflected shape, displacement, and stress contour plots
  • X-Y plots for response quantities Isoplanes and sectioning

The SolidExperts
2005 W. Cypress Creek Road
Suite 105
Fort Lauderdale, FL 33309