Marc

Advanced Nonlinear FEA Simulation

Ensure Performance of Products with Complex Material Behaviors

Solve your most challenging nonlinear simulation problems with Marc’s advanced finite element analysis capabilities. Analyze complex material behaviors, large deformations, and intricate contact conditions with proven accuracy. Model manufacturing processes, including metal forming, welding, and heat treatment, with specialized material models. Marc handles extreme nonlinearity, making it ideal for plastics and rubber.

Speed up product development across automotive, aerospace, manufacturing, and biomedical industries with Marc’s robust solution algorithms. Simulate coupled multiphysics, including thermal-mechanical, electromechanical, and fluid-structure interactions. Reduce physical prototyping costs by accurately predicting material failure, residual stresses, and process outcomes. Decades of nonlinear analysis expertise are at your fingertips to ensure your designs perform reliably under real-world conditions.

Key Benefits

Advanced FEA for Extreme Nonlinearity, Complex Materials, and Real-World Manufacturing Processes

Large Deformation

Accurately compute extreme geometric nonlinearity, buckling, and post-buckling behavior in structures.

Contact Mechanics

Handle complex contact scenarios including friction, adhesion, wear, and self-contact with robust algorithms.

Coupled Physics

Analyze thermal-structural, electrothermal, and piezoelectric interactions within unified multiphysics simulations.

Failure and Damage Prediction

Predict crack initiation, propagation, ductile tearing, and material damage using advanced fracture mechanics.

Manufacturing Optimization

Simulate metal forming, welding, casting, and additive manufacturing with specialized algorithms for production optimization.

Material Models

Access extensive libraries of constitutive models for metals, polymers, composites, foams, and biological tissues.

Features

A Solver Built for Complex Challenges

Solve difficult nonlinear problems for manufacturing, material forming, and complex contact simulations, particularly in designs using plastics and rubber materials.

Adaptive Meshing Technology

Automatically refine meshes during analysis to improve accuracy.

Customize material behavior and loads using Fortran subroutines.

Uses the arbitrary Lagrangian Eulerian formulation for fluid solid interaction problems.

Simulates progressive fracture without predefined crack paths.

Provides model preparation and result visualization in a single interface.

Ready to get started today?

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ODYSSEE

And that since 1998, with a tremendous passion for data and technology

We have been doing this since 1998 with a tremendous passion for data and technology and a real results-oriented, no-nonsense mentality. In an open, transparent working environment, we like to give our specialists the space to get the best out of themselves. The love of the profession, freedom and synergy between our young potentials and professionals result in a close-knit team feeling.

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