HyperMesh--Powerful, high-speed, independent of the solver's high-precision CAE modeling environment

Altair HyperMesh is a high-performance finite element preprocessing software that provides a highly interactive visual environment for analyzing product design performance. Directly with the commercial CAD, CAE system has a wide range of interfaces and a set of rich and easy to use to build and edit CAE model tools, HyperMesh for each enterprise to provide a unified analysis platform.

Advantage

Open architecture

HyperMesh seamlessly interfaces with any simulation environment, and it has a rich set of direct CAD / CAE interfaces and secondary development environments. 

High speed, high quality mesh

Automate the modeling process, and have a range of modeling tools for the most complex geometries.

Integrated CAE environment

With a modern, configurable, easy-to-use graphical user interface, it provides seamless data exchange for front and back processing.

Advanced 3D modeling visualization

3D visualization of all cell types (1D, 2D, 3D) in the finite element model makes model checking and visualization easier.

Improve user modeling efficiency

The use of fine grid batch technology, without manual geometric cleaning and meshing, thus accelerating the model development process. 1494999227566126.png

Composites Modeling

The Ply and Laminate tools make it easier to model composites, such as the shape of each layer and the stacking order between them.

The composite data can be extracted directly from the CATIA CPD and Fibersim and automatically mapped into the finite element mesh.

View the ply and pavement angles in 3D, making it easier to validate the model.

Advanced grid deformation technology

For the industry to provide the most powerful model deformation tool, allowing users to modify the existing grid to apply the new design, and reduce the model development costs.

First-class division of grid technology

HyperMesh presents users with a series of advanced and easy-to-use tools to create and edit CAE models. For 2D and 3D grid creation, the user can take advantage of a variety of grid generation functions,

Including HyperMesh powerful automatic partitioning grid module.

High precision grid

Surface meshing

Hexahedral meshing

Tetrahedron meshing

CFD meshing

Acoustic meshing

Envelope meshing

SPH meshing

Surface meshing

In HyperMesh, the face grid partitioning module provides a powerful engine for meshing, giving users unparalleled flexibility and functionality.

This includes the ability to adaptively adapt to a wide variety of grid parameters, optimize the grid based on a set of user-defined quality criteria, and create a grid with a wide range of advanced technologies.

Body grid division

Using Entity Geometry, HyperMesh can use standard and advanced steps to connect, separate, and cut solid models for tetrahedral and hexahedral meshes.

Combined with HyperMesh powerful physical visualization features to help users spend less time modeling, we can quickly and easily cut the model,

The volume meshing module can generate high quality grids for multiple individuals.

Grid batch technology

For large assemblies, the BatchMesher grid batch module in HyperMesh is the fastest way to automatically generate high-quality finite element meshes.

By minimizing manual meshing tasks, grid auto-partitioning saves more time for value-added engineering simulation activities.

BatchMesher provides user-specified mesh and geometric cleanup parameters, as well as the ability to output custom file formats.

Grid deformation

HyperMorph is integrated in the powerful HyperMesh, which interactively and parameterically changes shape and finite element models.

Using this unique method, you can quickly change the shape of a finite element mesh, or change the position of a node or cell, without sacrificing the quality of the mesh.

HyperMorph can be used to create shape variables for subsequent design optimization studies.

CAD compatibility

HyperMesh can read the generic CAD file format directly. In addition, HyperMesh's powerful tool can clean up CAD models that impede the generation of high-quality grids, overlapping faces, and squares.

By eliminating some of the edges and holes, suppressing the boundaries of adjacent faces, the user can divide the grid through larger logical regions of the model, which can significantly increase the speed and quality of the meshing. Boundary conditions can also be applied to these faces to map future latent grid data.

CATIA V4 / V5 IGES PRO-ENGINEER UNIGRAPHICS PARASOLID ACIS STEP Tribon SolidWorks JT Precise

Customize your own HyperMesh environment

Customize your own modeling environment with an easy-to-use interface, including drag and drop the toolbar, configure the drop-down menu, and keyboard shortcuts.

Customize tools: Create custom applications that are fully integrated with HyperMesh.

Solver input converter: The user can add the input converter.

Read different analysis data to extend HyperMesh's interface support.

Solver Output Template: Output Template Allows HyperMesh Database to Output User-Defined Templates for All and Specific Solvers

CAE solver interface

HyperMesh provides direct input and output support for most mainstream solvers in the industry. In addition, a fully customized environment is provided for each supported solver.

ADAMS, Moldflow, Abaqus, Moldex3D, Actran, MotionSolve, AcuSolve, Nastran

Ansys, nCode, CFD ++, Permas, Femfat, Fluent, Ls-Dyna, Madymo, PAM-CRASH

RADIOSS, OptiStruct, Samcef, Simpack, HyperMath, Marc, StarCD