ParaView visualization of Abaqus output on the mechanical deformation of complex microstructures

Abaqus® is a popular software suite for finite element analysis. It delivers linear and nonlinear analyses of mechanical and fluid dynamics, includes multi-body system and multi-physics coupling. However, the visualization capability of Abaqus using its CAE module is limited. Models from microtomogr...

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Veröffentlicht in:	Computers & geosciences 2017-02, Vol.99, p.135-144
Hauptverfasser:	Liu, Qingbin, Li, Jiang, Liu, Jie
Format:	Artikel
Sprache:	eng
Schlagworte:	Abaqus Computer simulation computer software computers data collection deformation filters finite element analysis Finite element method fluid mechanics Mathematical analysis Mathematical models microstructure Parallel visualization ParaView Partitioning Post-processing Programming languages Python script readability Scripts Visualization
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creator	Liu, Qingbin Li, Jiang Liu, Jie
description	Abaqus® is a popular software suite for finite element analysis. It delivers linear and nonlinear analyses of mechanical and fluid dynamics, includes multi-body system and multi-physics coupling. However, the visualization capability of Abaqus using its CAE module is limited. Models from microtomography have extremely complicated structures, and datasets of Abaqus output are huge, requiring a visualization tool more powerful than Abaqus/CAE. We convert Abaqus output into the XML-based VTK format by developing a Python script and then using ParaView to visualize the results. Such capabilities as volume rendering, tensor glyphs, superior animation and other filters allow ParaView to offer excellent visualizing manifestations. ParaView's parallel visualization makes it possible to visualize very big data. To support full parallel visualization, the Python script achieves data partitioning by reorganizing all nodes, elements and the corresponding results on those nodes and elements. The data partition scheme minimizes data redundancy and works efficiently. Given its good readability and extendibility, the script can be extended to the processing of more different problems in Abaqus. We share the script with Abaqus users on GitHub. •Converting Abaqus ODB output files to VTK format.•XML based VTK format for parallel visualization.•Data partitioning for very large models.•ParaView visualizes large data with complex microstructures.
doi_str_mv	10.1016/j.cageo.2016.11.008
format	Article
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source	Elsevier ScienceDirect Journals
subjects	Abaqus Computer simulation computer software computers data collection deformation filters finite element analysis Finite element method fluid mechanics Mathematical analysis Mathematical models microstructure Parallel visualization ParaView Partitioning Post-processing Programming languages Python script readability Scripts Visualization
title	ParaView visualization of Abaqus output on the mechanical deformation of complex microstructures
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