Continuum damage mechanics modelling of a 3d printed curvilinear cfrtp

N. Ichihara; M. Ueda

Continuum damage mechanics modelling of a 3d printed curvilinear cfrtp

理工学部

研究成果: 会議への寄与 › 論文 › 査読

抄録

Continuum damage mechanics was applied to a 3D printed curvilinear carbon fiber reinforced thermoplastic (c-CFRTP) to predict mechanical response due to loading. The material model was developed by means of finite element analysis, in which user-defined material subroutine was implemented. Elasto-plastic behavior of the 3D printed c-CFRTP including damage initiation and propagation was identified by a monotonic and cyclic tensile tests of the three specimens, i.e. [(±45]₂]_S, [(0/90)₂]_S and [(±67.5)₂]_S specimens. Then, the 3D printed curvilinear c-CFRTP was tested in monotonic tensile loading. Non-linear mechanical behavior of the 3D printed curvilinear c-CFRTP due to plasticity and damage initiation and propagation due to tensile loading was well predicted by the numerical simulation.

本文言語	英語
出版ステータス	出版済み - 2019
イベント	22nd International Conference on Composite Materials, ICCM 2019 - Melbourne, オーストラリア継続期間: 11 8月 2019 → 16 8月 2019

会議

会議	22nd International Conference on Composite Materials, ICCM 2019
国/地域	オーストラリア
City	Melbourne
Period	11/08/19 → 16/08/19

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title = "Continuum damage mechanics modelling of a 3d printed curvilinear cfrtp",

abstract = "Continuum damage mechanics was applied to a 3D printed curvilinear carbon fiber reinforced thermoplastic (c-CFRTP) to predict mechanical response due to loading. The material model was developed by means of finite element analysis, in which user-defined material subroutine was implemented. Elasto-plastic behavior of the 3D printed c-CFRTP including damage initiation and propagation was identified by a monotonic and cyclic tensile tests of the three specimens, i.e. [(±45]2]S, [(0/90)2]S and [(±67.5)2]S specimens. Then, the 3D printed curvilinear c-CFRTP was tested in monotonic tensile loading. Non-linear mechanical behavior of the 3D printed curvilinear c-CFRTP due to plasticity and damage initiation and propagation due to tensile loading was well predicted by the numerical simulation.",

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author = "N. Ichihara and M. Ueda",

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year = "2019",

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T1 - Continuum damage mechanics modelling of a 3d printed curvilinear cfrtp

AU - Ichihara, N.

AU - Ueda, M.

PY - 2019

Y1 - 2019

N2 - Continuum damage mechanics was applied to a 3D printed curvilinear carbon fiber reinforced thermoplastic (c-CFRTP) to predict mechanical response due to loading. The material model was developed by means of finite element analysis, in which user-defined material subroutine was implemented. Elasto-plastic behavior of the 3D printed c-CFRTP including damage initiation and propagation was identified by a monotonic and cyclic tensile tests of the three specimens, i.e. [(±45]2]S, [(0/90)2]S and [(±67.5)2]S specimens. Then, the 3D printed curvilinear c-CFRTP was tested in monotonic tensile loading. Non-linear mechanical behavior of the 3D printed curvilinear c-CFRTP due to plasticity and damage initiation and propagation due to tensile loading was well predicted by the numerical simulation.

AB - Continuum damage mechanics was applied to a 3D printed curvilinear carbon fiber reinforced thermoplastic (c-CFRTP) to predict mechanical response due to loading. The material model was developed by means of finite element analysis, in which user-defined material subroutine was implemented. Elasto-plastic behavior of the 3D printed c-CFRTP including damage initiation and propagation was identified by a monotonic and cyclic tensile tests of the three specimens, i.e. [(±45]2]S, [(0/90)2]S and [(±67.5)2]S specimens. Then, the 3D printed curvilinear c-CFRTP was tested in monotonic tensile loading. Non-linear mechanical behavior of the 3D printed curvilinear c-CFRTP due to plasticity and damage initiation and propagation due to tensile loading was well predicted by the numerical simulation.

KW - 3D print

KW - Additive manufacturing

KW - Continuum damage mechanics

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M3 - Paper

AN - SCOPUS:85097343971

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

Y2 - 11 August 2019 through 16 August 2019

ER -

Continuum damage mechanics modelling of a 3d printed curvilinear cfrtp

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