midas MeshFree 2024 R1

Download midas MeshFree 2024

what is new in midas MeshFree

midas MeshFree is a cutting-edge design and analysis technology developed through the collaboration with SAMSUNG Electronics. It performs simulation of the original model you have designed without any modification. Conventional FEM required tedious and time consuming model idealization and cleanup process.

what is new in midas MeshFree

Improved Convergence of Stress Results (Improved Stress Recovery)

MeshFree showed very high agreement with the target solution (FEM) regardless of reference memory for deformation and stress throughout the structure through NAFEMS benchmark verification, but for stress concentration areas such as notches, a problem has been found in which error fluctuations occur rather than a solution that converges according to the reference memory.

By improving the stress recovery method, the convergence of the solution is gradually improved as the grid density is improved. This allows the user to determine the level of reference memory to perform simple subdivided studies according to the analysis purpose

Add Function to Select Faces Based on the Same Color. By adding it as a new Toolbar function, you can conveniently and freely select the same color face before or during the analysis condition function, and it can be used very strongly in conjunction with the 3D CAD tool

Download midas MeshFree 2024

midas MeshFree represents a significant advancement in engineering simulation technology, offering a flexible, efficient, and accurate solution for a wide range of engineering applications. With its MeshFree approach, robust analysis capabilities, advanced post-processing tools, and parallel processing capabilities, midas MeshFree empowers engineers to tackle complex engineering challenges with confidence and precision.

Features

• MeshFree Technology: Utilizes innovative MeshFree methods for analysis.
• Kernel-Based Approximation: Interpolates solution values using kernel functions.
• Radial Basis Functions (RBFs): Enables accurate representation of solution fields.
• Moving Least Squares (MLS): Another method for MeshFree approximation.
• Eliminates Mesh Generation: Saves time and resources compared to traditional methods.
• Flexibility: Adaptable to complex and irregular geometries.
• Resilience to Deformations: Handles large deformations with accuracy.
• Wide Range of Applications: Suitable for structural, thermal, and fluid dynamics analysis.
• Nonlinear Material Behavior: Capable of simulating nonlinear material responses.
• Geometric Nonlinearities: Handles irregular shapes and distorted elements effectively.
• Static Analysis: Analyzes structures under static loading conditions.
• Dynamic Analysis: Evaluates dynamic responses to transient loads.
• Heat Transfer Analysis: Models heat transfer phenomena with precision.
• Fluid Flow Analysis: Simulates fluid flow behavior and interactions.
• Coupled-Field Analysis: Considers interactions between different physical fields.
• Advanced Post-processing Tools: Provides tools for visualizing and interpreting results.
• Parallel Processing: Utilizes multi-core processors and HPC clusters for faster simulations.
• Scalability: Handles large-scale problems efficiently.
• Efficient Solver: Provides fast and accurate solutions.
• User-friendly Interface: Intuitive interface for easy navigation and operation.
• Comprehensive Analysis Capabilities: Covers a wide range of engineering phenomena.
• Customization Options: Allows users to tailor analyses to specific requirements.
• Modeling Flexibility: Supports various boundary and loading conditions.
• CAD Integration: Imports models directly from CAD software.
• Automatic Mesh Generation: Provides automatic meshing options for certain analyses.
• Material Libraries: Includes libraries of predefined materials for convenience.
• Advanced Material Modeling: Supports complex material behaviors and properties.
• Documentation and Support: Offers comprehensive documentation and technical support.
• Verification and Validation: Ensures accuracy through rigorous testing and validation.
• Continuous Development: Regular updates and improvements based on user feedback and industry advancements.