Create Measure Responses
Use the Measure tool to create responses for supported measurements.
View new features for HyperWorks 2022.3.
Learn the basics and discover the workspace.
Discover HyperWorks functionality with interactive tutorials.
Start HyperWorks and configure the applications.
View a list of deprecated HyperWorks panels and their newer, equivalent workflows.
Create, open, import, and save models.
Set up sessions and create report templates.
Solver interfaces supported in HyperWorks.
A solver interface is made up of a template and a FE-input reader.
Browsers supply a great deal of view-related functionality by listing the parts of a model in a tabular and/or tree-based format, and providing controls inside the table that allow you to alter the display of model parts.
Create and edit 2D parametric sketch geometry.
Create, edit, and cleanup geometry.
FE geometry is topology on top of mesh, meaning CAD and mesh exist as a single entity. The purpose of FE geometry is to add vertices, edges, surfaces, and solids on FE models which have no CAD geometry.
Different types of mesh you can create in HyperWorks.
Create and edit 0D, 1D, 2D, and 3D elements.
Create, organize and manage parts and subsystems.
HyperMesh composites modeling.
Create connections between parts of your model.
Rapidly change the shape of the FE mesh without severely sacrificing the mesh quality.
Create a reduced ordered model to facilitate optimization at the concept phase.
Workflow to support topology optimization model build and setup.
Setup an Optimization in HyperWorks.
Multi-disciplinary design exploration and optimization tools.
The Design Explorer Browser displays a hierarchical view of your design setup and can be used to enable and disable exploration parameters.
An exploration is a multi-run simulation. Each exploration includes input design variables, and output responses. Explorations may also include goals, consisting of an objective and constraints.
An input design variable is a system parameter that influences the system performance in the chosen output response. Typical design variables may be a part's thickness, shape, or material property. Ranges, with lower and upper bounds, are specified and the variable's value will vary within the exploration. The terms input, input design variable, and design variable are used interchangeably.
An output response is a measurement of system performances, such as mass, volume, displacement, stress, strain, or reaction forces.
Use the Mass/Volume tool to create mass or volume responses. The resulting response is the mass or volume of the entire model or the mass of an individual property.
Use the Disps. tool to create displacement, rotation, velocity, or acceleration responses from selected nodes.
Use the Stress/Strain tool to create stress and strain responses for selected elements or properties.
Use the Force tool to create force responses from 1D elements or constraints.
Use the Frequency tool to create modal frequency responses. The resulting response is the frequency of the given mode number. In addition, a Modal Assurance Criteria (MAC) is created in the background and used to ensure that the desired mode is used in each run in the exploration.
Use the Connector tool to create connector responses. The resulting response is the number of realized connections in the entire model or in selected connectors.
Use the Measure tool to create responses for supported measurements.
Use the Derived tool to create responses which are combination of existing responses.
Create a generic response from any solver result file HyperWorks can read.
Objectives are metrics to be minimized or maximized in an optimization exploration. Minimizing mass to find a lightweight design is a common example.
Constraints need to be satisfied for an optimization to be acceptable. Constraints may also be associated with a DOE. While not used in the evaluation of the DOE, constraints can be useful while visualizing DOE results. Limits on displacement or stress are common examples.
Review the explorations, inputs, responses, and goals in your design setup.
Use the Evaluate tools to run the exploration and review reports.
Validate the model built before running solver analysis.
Models require loads and boundary conditions in order to represent the various physics and/or physical equivalents to bench and in-use testing.
Reduce a full 3D model with axisymmetric surfaces while accounting for imperfections.
Tools and workflows that are dedicated to rapidly creating new parts for specific use cases, or amending existing parts. The current capabilities are focused on stiffening parts.
Tools used for crash and safety analysis.
Airbag solutions offer airbag folder utilities and exports a resulting airbag in a Radioss deck.
Essential utility tools developed using HyperWorks-Tcl.
Import an aeroelastic finite element model with Nastran Bulk Data format.
Framework to plug certification methods to assess margin of safety from the model and result information.
Create evaluation lines, evaluate them, and optimize the interfaces to eliminate squeak and rattle issues.
Panels contains pre-processing and post-processing tools.
Results data can be post-processed using both HyperMesh and HyperView.
HyperGraph is a data analysis and plotting tool with interfaces to many file formats.
MotionView is a general pre-processor for Multibody Dynamics.
MediaView plays video files, displays static images, tracks objects, and measures distances.
TableView creates an Excel-like spreadsheet in HyperWorks.
TextView math scripts reference vector data from HyperGraph windows to automate data processing and data summary.
Create, define, and export reports.
Multi-disciplinary design exploration and optimization tools.
An output response is a measurement of system performances, such as mass, volume, displacement, stress, strain, or reaction forces.
Use the Measure tool to create responses for supported measurements.
Use the Measure tool to create responses for supported measurements.
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