Isogeometric homogenization analysis of dry woven fabrics involving micro-scale frictional contact

With a view to application to micro-macro decoupled multiscale simulations, a method of isogeometric homogenization analysis (IGHA) is proposed to characterize the in-plane macroscopic material behavior of dry woven fabrics in consideration of microscopic frictional-contact between fiber bundles. Th...
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Gespeichert in:

Autor*in:	Shinnosuke NISHI [verfasserIn] Kenjiro TERADA [verfasserIn] İlker TEMİZER [verfasserIn]

Format:	E-Artikel
Sprache:	Japanisch

Erschienen:	2018

Schlagwörter:	isogeometric analysis frictional-contact homogenization dry woven fabric composite material

Übergeordnetes Werk:	In: Nihon Kikai Gakkai ronbunshu - The Japan Society of Mechanical Engineers, 2022, 84(2018), 859, Seite 17-00554-17-00554
Übergeordnetes Werk:	volume:84 ; year:2018 ; number:859 ; pages:17-00554-17-00554

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.1299/transjsme.17-00554

Katalog-ID:	DOAJ085955485

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language	Japanese
source	In Nihon Kikai Gakkai ronbunshu 84(2018), 859, Seite 17-00554-17-00554 volume:84 year:2018 number:859 pages:17-00554-17-00554
sourceStr	In Nihon Kikai Gakkai ronbunshu 84(2018), 859, Seite 17-00554-17-00554 volume:84 year:2018 number:859 pages:17-00554-17-00554
format_phy_str_mv	Article
institution	findex.gbv.de
topic_facet	isogeometric analysis frictional-contact homogenization dry woven fabric composite material Mechanical engineering and machinery Engineering machinery, tools, and implements
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container_title	Nihon Kikai Gakkai ronbunshu
authorswithroles_txt_mv	Shinnosuke NISHI @@aut@@ Kenjiro TERADA @@aut@@ İlker TEMİZER @@aut@@
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callnumber-first	T - Technology
author	Shinnosuke NISHI
spellingShingle	Shinnosuke NISHI misc TJ1-1570 misc TA213-215 misc isogeometric analysis misc frictional-contact misc homogenization misc dry woven fabric misc composite material misc Mechanical engineering and machinery misc Engineering machinery, tools, and implements Isogeometric homogenization analysis of dry woven fabrics involving micro-scale frictional contact
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topic_title	TJ1-1570 TA213-215 Isogeometric homogenization analysis of dry woven fabrics involving micro-scale frictional contact isogeometric analysis frictional-contact homogenization dry woven fabric composite material
topic	misc TJ1-1570 misc TA213-215 misc isogeometric analysis misc frictional-contact misc homogenization misc dry woven fabric misc composite material misc Mechanical engineering and machinery misc Engineering machinery, tools, and implements
topic_unstemmed	misc TJ1-1570 misc TA213-215 misc isogeometric analysis misc frictional-contact misc homogenization misc dry woven fabric misc composite material misc Mechanical engineering and machinery misc Engineering machinery, tools, and implements
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title	Isogeometric homogenization analysis of dry woven fabrics involving micro-scale frictional contact
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title_full	Isogeometric homogenization analysis of dry woven fabrics involving micro-scale frictional contact
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title_sort	isogeometric homogenization analysis of dry woven fabrics involving micro-scale frictional contact
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title_auth	Isogeometric homogenization analysis of dry woven fabrics involving micro-scale frictional contact
abstract	With a view to application to micro-macro decoupled multiscale simulations, a method of isogeometric homogenization analysis (IGHA) is proposed to characterize the in-plane macroscopic material behavior of dry woven fabrics in consideration of microscopic frictional-contact between fiber bundles. The microstructure of dry woven fabrics having periodicity only in in-plane directions, which is identified with the representative volume element to realize in-plane macroscopic deformations, is referred to as an in-plane unit cell in this study and is regarded as a virtual specimen in numerical plate testing (NPT). NURBS basis functions are utilized for discretization to accurately solve micro-scale frictional contact problems of fiber bundles and the knot-to-surface (KTS) and mortar-based KTS algorithms are employed to evaluate the contact- and friction-related variables. The initial state of an in-plane unit cells, which is supposed to be obtained by a weaving process, is determined as a solution of the bending problem of two fiber bundles contacting with each other and is in reality subjected to in-plane tension. Several numerical examples are presented to demonstrate the performance and capability of the proposed IGHA for conducting NPT of dry woven fabrics involving with microscale frictional-contact to characterize the geometrical-nonlinearity-induced material nonlinearity especially in response to macroscopic shear deformations.
abstractGer	With a view to application to micro-macro decoupled multiscale simulations, a method of isogeometric homogenization analysis (IGHA) is proposed to characterize the in-plane macroscopic material behavior of dry woven fabrics in consideration of microscopic frictional-contact between fiber bundles. The microstructure of dry woven fabrics having periodicity only in in-plane directions, which is identified with the representative volume element to realize in-plane macroscopic deformations, is referred to as an in-plane unit cell in this study and is regarded as a virtual specimen in numerical plate testing (NPT). NURBS basis functions are utilized for discretization to accurately solve micro-scale frictional contact problems of fiber bundles and the knot-to-surface (KTS) and mortar-based KTS algorithms are employed to evaluate the contact- and friction-related variables. The initial state of an in-plane unit cells, which is supposed to be obtained by a weaving process, is determined as a solution of the bending problem of two fiber bundles contacting with each other and is in reality subjected to in-plane tension. Several numerical examples are presented to demonstrate the performance and capability of the proposed IGHA for conducting NPT of dry woven fabrics involving with microscale frictional-contact to characterize the geometrical-nonlinearity-induced material nonlinearity especially in response to macroscopic shear deformations.
abstract_unstemmed	With a view to application to micro-macro decoupled multiscale simulations, a method of isogeometric homogenization analysis (IGHA) is proposed to characterize the in-plane macroscopic material behavior of dry woven fabrics in consideration of microscopic frictional-contact between fiber bundles. The microstructure of dry woven fabrics having periodicity only in in-plane directions, which is identified with the representative volume element to realize in-plane macroscopic deformations, is referred to as an in-plane unit cell in this study and is regarded as a virtual specimen in numerical plate testing (NPT). NURBS basis functions are utilized for discretization to accurately solve micro-scale frictional contact problems of fiber bundles and the knot-to-surface (KTS) and mortar-based KTS algorithms are employed to evaluate the contact- and friction-related variables. The initial state of an in-plane unit cells, which is supposed to be obtained by a weaving process, is determined as a solution of the bending problem of two fiber bundles contacting with each other and is in reality subjected to in-plane tension. Several numerical examples are presented to demonstrate the performance and capability of the proposed IGHA for conducting NPT of dry woven fabrics involving with microscale frictional-contact to characterize the geometrical-nonlinearity-induced material nonlinearity especially in response to macroscopic shear deformations.
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title_short	Isogeometric homogenization analysis of dry woven fabrics involving micro-scale frictional contact
url	https://doi.org/10.1299/transjsme.17-00554 https://doaj.org/article/9d4a9acdf7324052b6dae20667c38f76 https://www.jstage.jst.go.jp/article/transjsme/84/859/84_17-00554/_pdf/-char/en https://doaj.org/toc/2187-9761
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Isogeometric homogenization analysis of dry woven fabrics involving micro-scale frictional contact

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