Numerical simulation of CFRP transverse failure considering non-linear viscoelastic/plastic constitutive equation with entropy damage

M. Sato; M. Hoshoshima; S. Murata; J. Koyanagi; Y. Ishida; Y. Kogo

Numerical simulation of CFRP transverse failure considering non-linear viscoelastic/plastic constitutive equation with entropy damage

M. Sato, M. Hoshoshima, S. Murata, J. Koyanagi, Y. Ishida, Y. Kogo

研究成果: Paper › 査読

抄録

A viscoelastic/plastic model of resin based on irreversible thermodynamics and viscoelastic theory is suggested in order to predict the failure of CFRP matrix resin. Single axis tensile tests and creep-recovery tests are performed under various temperature and strain rates to identify the material properties. The change of viscoelastic properties with temperature and strain rate are converted using the time-temperature superposition principle. The proposed model can express the strain behavior of creep and recovery process. In numerical analysis, A FORTRAN program is created to introduce a proposed nonlinear viscoelastic model into matrix resin. Failure analysis of unidirectional CFRP is performed under various temperatures and strain rates. The analysis model can express the progress damage of CFRP.

本文言語	English
出版ステータス	Published - 2019
イベント	22nd International Conference on Composite Materials, ICCM 2019 - Melbourne, Australia 継続期間: 11 8月 2019 → 16 8月 2019

Conference

Conference	22nd International Conference on Composite Materials, ICCM 2019
国/地域	Australia
City	Melbourne
Period	11/08/19 → 16/08/19

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引用スタイル

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title = "Numerical simulation of CFRP transverse failure considering non-linear viscoelastic/plastic constitutive equation with entropy damage",

abstract = "A viscoelastic/plastic model of resin based on irreversible thermodynamics and viscoelastic theory is suggested in order to predict the failure of CFRP matrix resin. Single axis tensile tests and creep-recovery tests are performed under various temperature and strain rates to identify the material properties. The change of viscoelastic properties with temperature and strain rate are converted using the time-temperature superposition principle. The proposed model can express the strain behavior of creep and recovery process. In numerical analysis, A FORTRAN program is created to introduce a proposed nonlinear viscoelastic model into matrix resin. Failure analysis of unidirectional CFRP is performed under various temperatures and strain rates. The analysis model can express the progress damage of CFRP.",

keywords = "Damage Mechanics, FEA, Failure Prediction, Thermodynamic Entropy, Viscoelasticity",

author = "M. Sato and M. Hoshoshima and S. Murata and J. Koyanagi and Y. Ishida and Y. Kogo",

note = "Publisher Copyright: {\textcopyright} 2019 International Committee on Composite Materials. All rights reserved.; 22nd International Conference on Composite Materials, ICCM 2019 ; Conference date: 11-08-2019 Through 16-08-2019",

year = "2019",

language = "English",

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TY - CONF

T1 - Numerical simulation of CFRP transverse failure considering non-linear viscoelastic/plastic constitutive equation with entropy damage

AU - Sato, M.

AU - Hoshoshima, M.

AU - Murata, S.

AU - Koyanagi, J.

AU - Ishida, Y.

AU - Kogo, Y.

PY - 2019

Y1 - 2019

N2 - A viscoelastic/plastic model of resin based on irreversible thermodynamics and viscoelastic theory is suggested in order to predict the failure of CFRP matrix resin. Single axis tensile tests and creep-recovery tests are performed under various temperature and strain rates to identify the material properties. The change of viscoelastic properties with temperature and strain rate are converted using the time-temperature superposition principle. The proposed model can express the strain behavior of creep and recovery process. In numerical analysis, A FORTRAN program is created to introduce a proposed nonlinear viscoelastic model into matrix resin. Failure analysis of unidirectional CFRP is performed under various temperatures and strain rates. The analysis model can express the progress damage of CFRP.

AB - A viscoelastic/plastic model of resin based on irreversible thermodynamics and viscoelastic theory is suggested in order to predict the failure of CFRP matrix resin. Single axis tensile tests and creep-recovery tests are performed under various temperature and strain rates to identify the material properties. The change of viscoelastic properties with temperature and strain rate are converted using the time-temperature superposition principle. The proposed model can express the strain behavior of creep and recovery process. In numerical analysis, A FORTRAN program is created to introduce a proposed nonlinear viscoelastic model into matrix resin. Failure analysis of unidirectional CFRP is performed under various temperatures and strain rates. The analysis model can express the progress damage of CFRP.

KW - Damage Mechanics

KW - FEA

KW - Failure Prediction

KW - Thermodynamic Entropy

KW - Viscoelasticity

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M3 - Paper

AN - SCOPUS:85097337944

T2 - 22nd International Conference on Composite Materials, ICCM 2019

Y2 - 11 August 2019 through 16 August 2019

ER -