Hypermesh units

By jyothikovvaliSeptember 25, in Altair HyperMesh. I imported a part with mm units and I am calculating the volume.

hypermesh units

How can I know the units for volume. Please advice. Thank you in advance. Yes that so simple. Other question is we dont know the part units but we imported the part.

Dr onima

Is there is any way to check the units of that part in Hypermesh? It is better to maintain consistent unit system. You can post now and register later. If you have an account, sign in now to post with your account.

What units am I using in MSC Patran/Nastran?

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Clear editor. Upload or insert images from URL. Search In. Reply to this topic Start new topic. Recommended Posts. Report post. Posted September 25, Share this post Link to post Share on other sites. Hello Q. Thank you the reply. Hypermesh as a lot of another FEA softwares knows nothing about the unit.Altair and our resellers need the contact information you provide to us to contact you about our products and services.

You may unsubscribe from these communications at anytime. For information on how to unsubscribe, as well as our privacy practices and commitment to protecting your privacy, check out our Privacy Policy. Coronavirus Preparedness Statement.

Read More. You are free to change your mind later and can opt-in at any time. Click here to see your cookie preferences. View the Course The purpose of this self paced course is to introduce HyperMesh to new users of the software. Most sections will use the See It, Do It methodology to cover the concepts. See It allows you to watch a video demonstration of the exercise covered in the section. Do It consists of a written exercise and model that can be opened in HyperMesh which allows you to perform the exercise on your own.

Some sections will also contain interactive guides to provide a detailed description of the different options contained within a panel or browser. Have a Question? If you need assistance beyond what is provided above, please contact us.

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Be the first to know Subscribe to our newsletter to learn about product training, news, events, and more!A combination of lectures and exercises will familiarize students with the HyperMesh environment, process, and suite of tools needed to start using HyperMesh in their work. The tool allows you to alter finite element models while keeping mesh distortions to a minimum.

The process would help Engineers to build and manage detailed FE models for multiple domains which involves part level model building and assembly, representation and configuration management.

This tool allows engineering analysts to validate CAD models received from the design teams, automatically identifying potential issues that could slow down the pre-processing stage of the simulation life cycle.

The solution identifies part intersections, missing welds and incorrect bolt-nut positions on an entire assembly structure and generates comprehensive reports. The purpose of this self paced course is to introduce HyperMesh to new users of the software. Most sections will use the See It, Do It methodology to cover the concepts. See It allows you to watch a video demonstration of the exercise covered in the section. Do It consists of a written exercise and model that can be opened in HyperMesh which allows you to perform the exercise on your own.

Some sections will also contain interactive guides to provide a detailed description of the different options contained within a panel or browser.

Off the page app

Supported by the streamlined, intuitive workflows in HyperMesh, running nonlinear analysis in OptiStruct is easier and more powerful than ever. Nonlinear explicit analysis is now supported, enabling simulation of drop tests, impact analysis, and more. In this webinar, we'll demo 5 different car door abuse use-cases, solving using linear dynamics, nonlinear quasi-static implicit, and nonlinear explicit dynamics analysis in OptiStruct.

hypermesh units

In this course you will have the opportunity to learn about the tools available in HyperWorks for aerospace workflows. Modules contained within the course provide detailed descriptions of the tools and workflows for use in the aerospace industry.

Learn Contact Creation with HyperMesh for OptiStruct NonLinear Solver

You will also have the opportunity to watch demonstrations and perform hands on exercises throughout the modules. The next generation HyperWorks experience was created to enable teams to move from physics to physics, domain to domain or even create reports without ever leaving their simulation model. Every tool in the suite delivers a solution-specific workflow with a meticulously designed and discoverable user-interface, differentiated for each user profile, but still familiar across the toolset.

Altair started delivering on this vision with the initial release of Inspire and has continued to bring more and more functionality to its customers with each release. Now, the next generation HyperMesh provides a modern environment for meshing, modeling, and morphing with no loss of existing functionality for long-term customers. Learn about the reimagining of Altair HyperMesh and how your product development can benefit today.

The presentation will showcase: -Brand new workflows for geometry recreation and editing -Midmeshing and interactive batch meshing -Free direct morphing -Parts and reps management -Concept design iteration. The Stormrider is a new vehicle which was designed from scratch and developed by Plasan. Altair Inspire was used for Topology optimization In order to find the ""best"" design for the vehicle front sub frame.

The available volume design space5 different load cases and target mass were specified and the optimization software calculated geometry to maximize stiffness. The optimization results were complex to manufacture with traditional technologies; the simulation and design teams collaborated on designing a manufacturable front sub frame assembly.

The new design was simulated to ensure it will withstand all the required loads. The front sub frame was implemented and tested on the prototype vehicle. The optimized front sub frame proved mechanically sound, while satisfying the mass and geometrical requirements. The early stage optimization reduced the development time, by creating a valid geometry however, the topology to manufacturable design process is not trivial.Third-party software products in the APA include technologies ranging from computational fluid dynamics and fatigue, to manufacturing process simulation and human modeling, with applications specific to industry-verticals including marine, motorcycles, aerospace, chemicals, and architecture.

With this product in our development process, we are able to change the random input spectrum without redoing the entire, very time consuming FE analysis. On Demand Amphyon Training. Altair and our resellers need the contact information you provide to us to contact you about our products and services. You may unsubscribe from these communications at anytime. For information on how to unsubscribe, as well as our privacy practices and commitment to protecting your privacy, check out our Privacy Policy.

Coronavirus Preparedness Statement. Read More. View All Products. Frequently Asked Questions About Altair Altair transforms design and decision making by applying simulation, machine learning and optimization throughout product life cycles. Our broad portfolio of simulation technology and patented units-based software licensing model enable Simulation-Driven Innovation for our customers. With more than 2, employees, Altair is headquartered in Troy, Michigan, USA and operates 69 offices throughout 24 countries.

Altair serves more than 5, customers across broad industry segments. To learn more, please visit www. Customers can invoke a broad suite of partner software at absolutely no incremental cost utilizing their existing HyperWorks Units HWU. Altair plans to continue to add valuable third party software solutions to the HyperWorks platform that will empower innovation with comprehensive enterprise analytic tools.

The Altair Partner Alliance is unique, because it: Allows customers access to innovative new software at no incremental cost. Provides customers an opportunity to reduce infrastructure and administrative costs. Gives customers the ability to quickly evaluate and deploy software on-demand.

Provides partners who participate with a new channel for software distribution with shorter sales cycles due to established relationships and infrastructures. Incorporates a new paradigm, where Altair shares software royalties with its partners based on actual customer usage reports. Click here to submit contact form.

hypermesh units

For universities interested in accessing partner software, please visit Altair University. In general, the partner products included in the Altair Partner Alliance have the same functionality and features sets as their corresponding standard versions.MotionView is a graphical environment for building multi-body system models and for visualizing motion simulation results using animations and plots.

Its inherent parametric modeling capability enables users to perform automated design exploration as a way of discovering better designs, faster. Tightly integrated together, the combination of MotionView and MotionSolve provides a complete solution for your multi-body system simulation needs. A typical mechanical system tends to have several subsystems. A modular approach to model building lets users have more control over the modeling. Flexible-body modeling within a mechanical system can be a complex and challenging task since it typically requires familiarity with finite element modeling and knowledge of finite elements solvers.

MotionView is completely customization and automation ready giving users control over both the graphical user interface and the modeling processes. This allows MotionView to seamlessly fit within any simulation environment. MotionView delivers a complete solution for the entire mechanical systems simulation process through its powerful functionality and direct integration with HyperWorks. Altair and our resellers need the contact information you provide to us to contact you about our products and services.

You may unsubscribe from these communications at anytime.

hypermesh units

For information on how to unsubscribe, as well as our privacy practices and commitment to protecting your privacy, check out our Privacy Policy. Coronavirus Preparedness Statement. Read More. You are free to change your mind later and can opt-in at any time. Click here to see your cookie preferences. MotionView MotionView is a graphical environment for building multi-body system models and for visualizing motion simulation results using animations and plots.

Parametric model definitions provide easy analysis studies of model variations. Efficient and intuitive workflows simplify and standardize mechanical systems modeling Modern user interface that is easy to learn and use Advanced, context-sensitive model-browser helps easily navigate through the model elements with less mouse travel and fewer clicks Flexible Bodies Flexible-body modeling within a mechanical system can be a complex and challenging task since it typically requires familiarity with finite element modeling and knowledge of finite elements solvers.

Smooth and simplified processes for flexbody generation One-step conversion between rigid and flexible components Comprehensive array of utilities to minimize flexbody pre-processing errors Automation and Customization MotionView is completely customization and automation ready giving users control over both the graphical user interface and the modeling processes.

Fully customizable user interface providing users with the flexibility to modify the existing environment, turn panels on and off, and build custom panels Powerful scripting enabling users to automate repetitive modeling tasks and streamline intricate processes End-to-End Solution MotionView delivers a complete solution for the entire mechanical systems simulation process through its powerful functionality and direct integration with HyperWorks.

Request a Demo. Contact Us Have a question? Let us know how we can help. Contact Us. Customer Login. Be the first to know Subscribe to our newsletter to learn about product training, news, events, and more!HyperMesh presents users with an advanced suite of easy-to-use tools to build and edit CAE models. HyperMorph is powerful solution for interactively and parametrically changing the shape of a finite element model.

Its unique approach enables rapid shape variations on the finite element mesh without sacrificing mesh quality. During the morphing process, HyperMorph also allows the creation of shape variables, which can be used for subsequent design optimization studies.

By minimizing manual meshing tasks, this auto-meshing technology provides more time for value-added engineering simulation activities. BatchMesher provides user-specified control over meshing criteria and geometry clean-up parameters as well as the ability to output to customized model file formats.

HyperMesh provides import and export support for industry-leading CAD data formats. Moreover, HyperMesh has robust tools to clean up imported geometry to allow for the efficient generation of high-quality meshes.

Boundary conditions can also be applied directly to geometry for automatic mapping to underlying elements. Connectors are geometric entities used to connect geometry or FE entities. They are used to create spot- and seamwelds, adhesives, bolts or masses.

Connectors can be realized from geometric entities into various solver specific FE representations. It is possible to unrealize them to change the representation to a different type or solver profile on the next realization.

Connectors contain their location, linking partners, connection rules and realization types. They can be created manually, absorbed from FE existing FE connections or imported and generated from text files.

HyperMesh holds strong features for modeling highly complex composites structures. Ply entities allow defining the shape of individual layers based on geometry or elements. The laminate entity defines the stacking order of a composite part. The composites definition is generic and can be realized into many solver profiles. For review purposes composites structures can be visualized in 3D, individual layers isolated and ply orientations visualized graphically.

For a highly efficient workflow the CATIA reader has been enhanced to read composite definitions, such as ply shapes, material and ply orientations, directly from the geometry file. Fibersim drape data can be imported in a very similar way.

HyperMesh offers sophisticated mapping algorithms to transfer the geometric input data to an FE mesh and associated properties. HyperMesh supports a host of different solver formats for both import and export. Along with fully supported solvers, HyperMesh provides a completely tailored environment user profile for each supported solver. It also provides the flexibility to support additional solvers through a unique and straightforward interfacing language.

HyperMesh Collaboration Tools are available with the standard installation and work out-of-the-box. Users are enabled to work in a powerful and truly collaborative environment. The Explore dialog is tightly integrated into all HyperMesh file dialogs and allows for efficient searching of databases and retrieving of files.

The Organize Browser helps to structure simulation data and file versions. Personal or team data can be efficiently managed to ensure that always the latest file versions will be used.HyperMesh is the market-leading, multi-disciplinary finite element pre-processor which manages the generation of the largest, most complex models, starting with the import of a CAD geometry to exporting a ready-to-run solver file.

HyperMesh supports a wide variety of CAD and solver interfaces, making it a perfect solution for most industry verticals and domains. With its advanced geometry and meshing capabilities, HyperMesh provides an environment for rapid model generation. For complex sub-system generation and assembly, HyperMesh has advanced model assembly tools.

Modeling of laminate composites is supported by advanced creation, editing and visualization tools. Design changes can be made easily via mesh morphing and geometry dimensioning.

HyperMesh Overview Video. Direct readers to popular native CAD file formats. Robust tools to clean-up of complex CAD geometry. Automated thickness extraction and property assignment. Manual, semi- and fully-automated mesh generation tools, including batch meshing to ensure highest quality model discretization. Ply- and laminate-based modeling concept, and direct communication with Altair and third-party composites modeling tools.

Create custom applications that are fully integrated within the HyperMesh interface. Accelerated model assembly based on BOM and advanced connector technology. Hosting of multiple configurations in one database.

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Altair and our resellers need the contact information you provide to us to contact you about our products and services. You may unsubscribe from these communications at anytime. For information on how to unsubscribe, as well as our privacy practices and commitment to protecting your privacy, check out our Privacy Policy. Coronavirus Preparedness Statement.

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Read More. You are free to change your mind later and can opt-in at any time. Click here to see your cookie preferences. Overview Capabilities New Features Resources. What is Altair HyperMesh? Why HyperMesh?

Pre-processing for Complex Assemblies. Complete model setup of even the most complex simulations across multiple domains and industries, including automatic and semi-automatic shell, tetra, and hexa meshing capabilities. Open-architecture Design.

Automated Model Build. Highly efficient for part level model building and assembly, representation and configuration management. Intelligent connector tools and auto contact help with final model assembly. Meshing Manual, semi- and fully-automated mesh generation tools, including batch meshing to ensure highest quality model discretization.

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Composites Ply- and laminate-based modeling concept, and direct communication with Altair and third-party composites modeling tools.

Customization Create custom applications that are fully integrated within the HyperMesh interface. Customer Story Duratec Learn More. Customer Story Griiip Learn More.


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