Multi-physics integration platform MuPIF: Application for composite material design

This paper presents the design of the MuPIF distributed, multi-physics simulation platform and its performance in the context of the H2020 Composelector project. The description of MuPIF's model and data interfaces provides implementation and operational details that illustrate how MuPIF is a h...

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Veröffentlicht in:	arXiv.org 2022-01
Hauptverfasser:	Patzák, B, Šmilauer, V, Horák, M, Šulc, S, Dvořáková, E
Format:	Artikel
Sprache:	eng
Schlagworte:	Composite materials Decision support systems Workflow
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creator	Patzák, B Šmilauer, V Horák, M Šulc, S Dvořáková, E
description	This paper presents the design of the MuPIF distributed, multi-physics simulation platform and its performance in the context of the H2020 Composelector project. The description of MuPIF's model and data interfaces provides implementation and operational details that illustrate how MuPIF is a highly versatile and robust tool for various engineering applications. Its distributed design and the integration of models in a workflow allows MuPIF to simulate real industrial tasks. The design of a composite airplane frame for the Composelector project, focusing on innovative design of composite materials and structures, demonstrates MuPIF's capabilities and ability to be integrated into Business Decision Support Systems.
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subjects	Composite materials Decision support systems Workflow
title	Multi-physics integration platform MuPIF: Application for composite material design
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