Filter Connectors using Metadata
Filter connectors in the modeling window based on metadata using the FEMSITE Filter tool.
- From the menu bar, click .
- In the Filter connectors dialog, define connector criteria accordingly.
- Click Submit.
View new features for Engineering Solutions 2022.1.
Engineering Solutions is a modeling and visualization environment for NVH, Squeak and Rattle Director, Crash, CFD, and Aerospace using best-in-class solver technology.
Discover Engineering Solutions functionality with interactive tutorials.
Noise, Vibration and Harshness (NVH) is an important vehicle attribute that directly affects the customer experience.
Use Squeak and Rattle Director tool to create evaluation lines, evaluate them and optimize the interfaces to eliminate squeak and rattle issues.
The Crash application offers a tailored environment in HyperWorks that efficiently steers the Crash CAE specialist in CAE model building, starting from CAD geometry and finishing with a runnable solver deck in Radioss, LS-DYNA and PAM-CRASH 2G.
HyperWorks offers high quality tools for CFD applications enabling the engineer to perform modeling, optimization and post-processing tasks efficiently.
Essential utility tools developed using HyperWorks-Tcl.
Solver interfaces supported in Engineering Solutions.
A solver interface is made up of a template and a FE-input reader.
Support provided by the CAD readers and writers.
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.
Panels contains pre-processing and post-processing tools.
Create, edit, and cleanup geometry.
Different types of mesh you can create in HyperWorks.
Create connections between parts of your model.
Connectors are geometric entities (not FE) used to create connections between components. Connectors are used to realize FE idealizations of the physical connection. Just as you create an FE mesh on a surface, you create FE connections by realizing a connector.
A connector definition describes the connection between multiple entities at a specific location.
Overview of connector terminology.
Overview of the process used to select the best routine for realization.
Learn about special connector realization types.
Organize elements into connector groups.
Use the projection control methods to control how projection should be performed for area connectors.
There are many advantages to the way connectors store information. Not only does this local storage allow you to edit the connector definition, it also allows you to review connector details and the quality of the realization.
Each individual connector can be placed in a user control mode using either the *CE_SetSpecificDetailById or *CE_SetSpecificDetail commands.
Most of the information stored in the connector entity can be exported to a master connectors file, which contains connector entity information such as location, link entity, link entity state, link entity rules. The exported file may also contain metadata information stored in the connector.
In addition to the master connectors file, the connectors reader also supports master weld file formats previously supported by the spotweld reader.
The spotweld feinput translator reads weld information from an ASCII file, such as a Master Weld File.
The FE configuration file (feconfig.cfg) is used to define custom welds such as ACM (Area Contact Method) and other special types.
Create weld points at a predefined pitch distance so that the model build process can continue without the need to wait for the published weld data from CAD. Autopitch is useful when working with elements, not geometry.
Create specialized connector realization types which can be used in fatigue calculations with the third party FEMSITE tool.
Use the third party FEMSITE utility to preprocess models and submit connection information to the FEMSITE generator.
Define a spotweld with the FEMSITE utility ensures that you will be able to create a FEMSITE spotweld within HyperMesh, and assign the proper metadata to the connector for successful realization.
Defining a robscan weld with the FEMSITE utility.
Define a rivet configuration with the FEMSITE utility.
Import metadata and connectors from a *.conn file with the FEMSITE utility.
Import PART/PID mapping *.csv files generated by the BOM tool into the FEMSITE utility,
Connector data that has been imported or defined in HyperMesh can be exported to *.conn files.
Filter connectors in the modeling window based on metadata using the FEMSITE Filter tool.
Check if the connection partners of connectors are available in the HyperMesh database.
Review and edit connector metadata that was created during import using the FEMSITE Review Conn tool.
Resolve undefined custom type connectors imported from a *.conn by assigning them metadata.
Attachments are an entity to facilitate the ease of joining subsystems.
Create, organize and manage parts and subsystems.
Perform automatic checks on CAD models, and identify potential issues with geometry that may slow down the meshing process using the Verification and Comparison tools.
Overview of how to build a finite element model.
Morph the shape of your finite element model.
Setup an Optimization in Engineering Solutions.
Convert finite element models to another solver format.
Study relationships between data vectors in results files.
Learn how to use post-processing functions.
Create connections between parts of your model.
Create specialized connector realization types which can be used in fatigue calculations with the third party FEMSITE tool.
Filter connectors in the modeling window based on metadata using the FEMSITE Filter tool.
Filter connectors in the modeling window based on metadata using the FEMSITE Filter tool.
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