Most ABAQUS structural elements are supported by the interface.Ībaqus append joins separate results files into a single file.Ībaqus ascfil translates ABAQUS results files between ASCII and binary formats, which is useful for moving results files between different computer types.Ībaqus doc accesses the HTML ABAQUS documentation collection using a web browser.Ībaqus encrypt creates an encoded, password-protected version of an ABAQUS input file, while abaqus decrypt converts an encrypted file back into its original, unencoded format.Ībaqus fetch extracts example input files from the libraries included with the release.Ībaqus findkeyword provides a list of sample problems that use the specified ABAQUS options. Multiple flexible components generated by ABAQUS can be included in an MSC.ADAMS model. Although the ADAMS/Flex interface supports only linear flexibility data, the ABAQUS user may include an arbitrary number of preloading steps before the linear flexibility data are obtained. mnf) file format required by the ADAMS/Flex product. Specifically, flexibility data from ABAQUS superelements are translated to the modal neutral (. The interface is based on the component mode synthesis formulation of ADAMS/Flex. For more information, see the ABAQUS Interface for MOLDFLOW User's Manual.ĪBAQUS Interface for MSC.ADAMS: This interface allows ABAQUS finite element models to be included as flexible components within the MSC.ADAMS family of products. For Version 6.6 the ABAQUS Interface for MOLDFLOW supports MOLDFLOW Version MPI6 filled and unfilled three-dimensional simulations. Individual components of the ABAQUS finite element analysis program are described in this section.ĪBAQUS Interface for MOLDFLOW: This interface translates finite element model information from a MOLDFLOW analysis to an ABAQUS input file. For more information, visit the Unified FEA page of the ABAQUS web site at.
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Some of the benefits of our Unified FEA strategy include reduction in a company's FEA toolset and modeling time, improved correlation between tests and analysis results, improved data transfer between simulations, reduced training expenses, and a more flexible workforce. ABAQUS allows smooth migration between workflows, enables easy sharing of models and results between engineering disciplines, and provides an environment to explore evolution of legacy methods to a more sophisticated, real-world approach.
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ABAQUS calls this idea Unified FEA.ĪBAQUS provides the tools required for a wide range of applications within a unified software system. To leverage investments in virtual prototyping, companies are working to consolidate best practices, processes, and tools to create an integrated environment where engineers share methods, models, and results. It is difficult to achieve real PLM integration and maximize benefits when different engineering teams use different tools and models. In many companies engineering groups use more than one finite element analysis program.
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Virtual prototyping enables creation of better products and shortens time to market. Companies at all levels in the supply chain recognize finite element analysis as a strategic technology. ABAQUS products are driven by our vision of Unified FEA in which we deliver best-in-class solutions for a wide variety of simulations with a goal of one model and one analysis tool for diverse analyses.