About Marc
Marc is a finite element analysis software from Hexagon (MSC Software) that focuses on advanced simulation capabilities. It provides non-linear analysis, multiphysics modeling, and material behavior simulation so engineers can assess complex physical behaviors. Designed for industries such as automotive and aerospace, Marc supports the evaluation of mechanical properties under various conditions. It also includes tools for thermal and fluid analysis, enabling comprehensive assessments of designs. Key capabilities: non-linear analysis multiphysics modeling material behavior simulation thermal analysis fluid dynamics Best for: engineers and analysts that need to perform detailed simulations for product development and testing.
Marc by Hexagon (MSC Software) is a high-end nonlinear finite element analysis (FEA) solver designed to tackle some of the most complex engineering simulations across industries such as automotive, aerospace, medical devices, and advanced manufacturing. Unlike standard linear solvers, Marc specializes in geometric, material, and boundary condition nonlinearities, allowing engineers to model extreme conditions, large deformations, and complex interactions with high accuracy. Its interface, accessed through the Mentat pre- and post-processor, is functionally dense and optimized for experienced FEA analysts, offering hierarchical model navigation and specialized workflow tools, though beginners may face a steep learning curve. Key capabilities include advanced contact modeling that automatically detects interactions between rigid and deformable bodies, global automatic remeshing to handle element distortion during large deformations, multiphysics coupling for simultaneous thermal, electrical, and magnetic simulations, and crack propagation prediction for accurate failure analysis. Marc is also renowned for its robustness and scalability, utilizing domain decomposition to parallelize computations across distributed memory systems, making it highly efficient for large assemblies and transient dynamic simulations.
Pros & Cons
- Offers superior convergence, excelling at solving complex and difficult contact problems in simulations.
- Features automatic remeshing, effectively addressing issues with severe element distortion during analysis.
- Provides flexible licensing through MSC One tokens, granting access to multiple solvers as needed.
- Classic Mentat interface feels dated or unintuitive to new users.
- Pricing information is not publicly available.
Features
Key features
Specialized ability to simulate complex production sequences such as sheet metal forming, hydroforming, extrusion, and welding.
Predicts crack initiation and propagation using advanced fracture mechanics, ductile damage models, and delamination analysis.
Automatically creates a new mesh from deformed boundaries when elements become severely distorted to maintain analysis accuracy.
Enables the simultaneous simulation of thermal, electrical, magnetic, and structural phenomena within a single unified environment.
Features a unique algorithm that handles both small and large sliding between contact bodies without needing manual master-slave definitions.
Breaks models into smaller pieces to solve them in parallel across separate processors, helping achieve superlinear scalability.
Additional features
Accurately simulates the behavior of products under complex static or transient dynamic loading conditions.
Manages large displacements, large rotations, and large strains commonly found in elastomers and plastics.
Provides an extensive collection of models for metals, composites, rubbers, shape memory alloys, and visco-plastic materials.
Uses a proximity-based search to automatically identify and manage interactions between multiple components in an assembly.
Analyzes the interaction between temperature changes and structural deformation, essential for welding and quenching simulations.
Simulates electrical and magnetic behaviors, including induction heating and Joule heating effects.
Models materials that accumulate electric charge under mechanical stress, which is critical for sensors and actuators.
Includes the Lemaitre model and other mesh-independent schemes to study the degradation of metallic materials.
Offers specialized tools for evaluating laminate bond failure and delamination in high-performance composite structures.
Allows users to set up multi-step problems by restarting an analysis from a previous converged state.
Automatically refines the mesh in local regions of high stress or large gradients to improve solution precision.
Generates contour plots, tensor plots, and time-history animations to visualize contact stresses and material particle flow.
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About Marc
Marc is a finite element analysis software from Hexagon (MSC Software) that focuses on advanced simulation capabilities. It provides non-linear analysis, multiphysics modeling, and material behavior simulation so engineers can assess complex physical behaviors. Designed for industries such as automotive and aerospace, Marc supports the evaluation of mechanical properties under various conditions. It also includes tools for thermal and fluid analysis, enabling comprehensive assessments of designs. Key capabilities: non-linear analysis multiphysics modeling material behavior simulation thermal analysis fluid dynamics Best for: engineers and analysts that need to perform detailed simulations for product development and testing.
Marc Details
Marc's In-App Market Place
Does Marc have an in-app market place?
Yes
How many Mini-Apps in the marketplace?
1
Mini Apps
No
Pricing Options
Accepted Payment Currencies
USD ($)
Pros & Cons
- Offers superior convergence, excelling at solving complex and difficult contact problems in simulations.
- Features automatic remeshing, effectively addressing issues with severe element distortion during analysis.
- Provides flexible licensing through MSC One tokens, granting access to multiple solvers as needed.
- Classic Mentat interface feels dated or unintuitive to new users.
- Pricing information is not publicly available.
