Stacking Sequence Effects on Performance of Composite Laminate Structure Subjected to Multi-Axial Quasi-Static Loading

Daud Mohamad, Agusril Syamsir, S. N. Sa'Don, N. M. Zahari, S. A.H.A. Seman, M. F. Razali, A. Abas, F. C. Ng

Research output: Contribution to journalConference article

1 Citation (Scopus)

Abstract

In this paper, the effects of the stacking sequence on the mechanical performance and damage formation of composite laminates subjected to multi-axial quasi-static loading is investigated, considering intra-laminar damage onset. The response of the composite laminate configurations characterized by different stacking sequences subjected to multi-axial quasi-static loading have been studied to predict the influence on the static displacement and damage development. A finite element (FE) model has been used to numerically simulate the response of the composite structure. ABAQUS/EXPLICT FE environment has been considered for the analyses and Hashin's failure criteria has been adopted using a VUMAT subroutine to model the intra-laminar damage formation in the analyzed composite structure.

Original languageEnglish
Article number012030
JournalIOP Conference Series: Materials Science and Engineering
Volume530
Issue number1
DOIs
Publication statusPublished - 01 Jan 2019
EventInternational Conference on Recent Advances on Industrial Engineering and Manufacturing 2018, ICRAIEM 2018 - Penang, Malaysia
Duration: 12 Dec 201813 Dec 2018

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Composite structures
Laminates
Subroutines
ABAQUS
Composite materials

All Science Journal Classification (ASJC) codes

  • Materials Science(all)
  • Engineering(all)

Cite this

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title = "Stacking Sequence Effects on Performance of Composite Laminate Structure Subjected to Multi-Axial Quasi-Static Loading",
abstract = "In this paper, the effects of the stacking sequence on the mechanical performance and damage formation of composite laminates subjected to multi-axial quasi-static loading is investigated, considering intra-laminar damage onset. The response of the composite laminate configurations characterized by different stacking sequences subjected to multi-axial quasi-static loading have been studied to predict the influence on the static displacement and damage development. A finite element (FE) model has been used to numerically simulate the response of the composite structure. ABAQUS/EXPLICT FE environment has been considered for the analyses and Hashin's failure criteria has been adopted using a VUMAT subroutine to model the intra-laminar damage formation in the analyzed composite structure.",
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Stacking Sequence Effects on Performance of Composite Laminate Structure Subjected to Multi-Axial Quasi-Static Loading. / Mohamad, Daud; Syamsir, Agusril; Sa'Don, S. N.; Zahari, N. M.; Seman, S. A.H.A.; Razali, M. F.; Abas, A.; Ng, F. C.

In: IOP Conference Series: Materials Science and Engineering, Vol. 530, No. 1, 012030, 01.01.2019.

Research output: Contribution to journalConference article

TY - JOUR

T1 - Stacking Sequence Effects on Performance of Composite Laminate Structure Subjected to Multi-Axial Quasi-Static Loading

AU - Mohamad, Daud

AU - Syamsir, Agusril

AU - Sa'Don, S. N.

AU - Zahari, N. M.

AU - Seman, S. A.H.A.

AU - Razali, M. F.

AU - Abas, A.

AU - Ng, F. C.

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N2 - In this paper, the effects of the stacking sequence on the mechanical performance and damage formation of composite laminates subjected to multi-axial quasi-static loading is investigated, considering intra-laminar damage onset. The response of the composite laminate configurations characterized by different stacking sequences subjected to multi-axial quasi-static loading have been studied to predict the influence on the static displacement and damage development. A finite element (FE) model has been used to numerically simulate the response of the composite structure. ABAQUS/EXPLICT FE environment has been considered for the analyses and Hashin's failure criteria has been adopted using a VUMAT subroutine to model the intra-laminar damage formation in the analyzed composite structure.

AB - In this paper, the effects of the stacking sequence on the mechanical performance and damage formation of composite laminates subjected to multi-axial quasi-static loading is investigated, considering intra-laminar damage onset. The response of the composite laminate configurations characterized by different stacking sequences subjected to multi-axial quasi-static loading have been studied to predict the influence on the static displacement and damage development. A finite element (FE) model has been used to numerically simulate the response of the composite structure. ABAQUS/EXPLICT FE environment has been considered for the analyses and Hashin's failure criteria has been adopted using a VUMAT subroutine to model the intra-laminar damage formation in the analyzed composite structure.

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