An energy-based fatigue approach for composites combining failure mechanisms, strength and stiffness degradation

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Original languageEnglish
Title of host publicationFatigue Behaviour of Fiber Reinforced Polymers
Subtitle of host publicationExperiments and Simulations - 5th International Conference on Fatigue of Composites, ICFC 2010
Pages139-150
Number of pages12
Publication statusPublished - 2012
Event5th International Conference on Fatigue of Composites - Fatigue Behaviour of Fiber Reinforced Polymers: Experiments and Simulations, ICFC 2010 - Nanjing, China
Duration: 16 Oct 201019 Oct 2010

Publication series

NameFatigue Behaviour of Fiber Reinforced Polymers: Experiments and Simulations - 5th International Conference on Fatigue of Composites, ICFC 2010

Abstract

In order to improve the fatigue analysis of large structures made of fibre-reinforced plastics a physically motivated fatigue assessment procedure is investigated. In contrast to the analysis procedure usually applied the novel model consists of a layer-wise continuum mechanics approach on macro scale and considers different failure modes. The approach subdivides into two analysis parts: discontinuous quasi-static degradation and continuous fatigue degradation. The discontinuous approach is based on a well-known failure mode theory. The continuous degradation approach makes use of an energy-based hypothesis, which combines strength and stiffness degradation. With the present approach stress redistributions and sequence effects can be investigated.

Keywords

    Damage mechanics, Degradation, Fatigue modelling, Layer-based approach, Reinforced composite, Sequence effects

ASJC Scopus subject areas

Cite this

An energy-based fatigue approach for composites combining failure mechanisms, strength and stiffness degradation. / Krüger, H.; Rolfes, R.; Jansen, E.
Fatigue Behaviour of Fiber Reinforced Polymers: Experiments and Simulations - 5th International Conference on Fatigue of Composites, ICFC 2010. 2012. p. 139-150 (Fatigue Behaviour of Fiber Reinforced Polymers: Experiments and Simulations - 5th International Conference on Fatigue of Composites, ICFC 2010).

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Krüger, H, Rolfes, R & Jansen, E 2012, An energy-based fatigue approach for composites combining failure mechanisms, strength and stiffness degradation. in Fatigue Behaviour of Fiber Reinforced Polymers: Experiments and Simulations - 5th International Conference on Fatigue of Composites, ICFC 2010. Fatigue Behaviour of Fiber Reinforced Polymers: Experiments and Simulations - 5th International Conference on Fatigue of Composites, ICFC 2010, pp. 139-150, 5th International Conference on Fatigue of Composites - Fatigue Behaviour of Fiber Reinforced Polymers: Experiments and Simulations, ICFC 2010, Nanjing, China, 16 Oct 2010.
Krüger, H., Rolfes, R., & Jansen, E. (2012). An energy-based fatigue approach for composites combining failure mechanisms, strength and stiffness degradation. In Fatigue Behaviour of Fiber Reinforced Polymers: Experiments and Simulations - 5th International Conference on Fatigue of Composites, ICFC 2010 (pp. 139-150). (Fatigue Behaviour of Fiber Reinforced Polymers: Experiments and Simulations - 5th International Conference on Fatigue of Composites, ICFC 2010).
Krüger H, Rolfes R, Jansen E. An energy-based fatigue approach for composites combining failure mechanisms, strength and stiffness degradation. In Fatigue Behaviour of Fiber Reinforced Polymers: Experiments and Simulations - 5th International Conference on Fatigue of Composites, ICFC 2010. 2012. p. 139-150. (Fatigue Behaviour of Fiber Reinforced Polymers: Experiments and Simulations - 5th International Conference on Fatigue of Composites, ICFC 2010).
Krüger, H. ; Rolfes, R. ; Jansen, E. / An energy-based fatigue approach for composites combining failure mechanisms, strength and stiffness degradation. Fatigue Behaviour of Fiber Reinforced Polymers: Experiments and Simulations - 5th International Conference on Fatigue of Composites, ICFC 2010. 2012. pp. 139-150 (Fatigue Behaviour of Fiber Reinforced Polymers: Experiments and Simulations - 5th International Conference on Fatigue of Composites, ICFC 2010).
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abstract = "In order to improve the fatigue analysis of large structures made of fibre-reinforced plastics a physically motivated fatigue assessment procedure is investigated. In contrast to the analysis procedure usually applied the novel model consists of a layer-wise continuum mechanics approach on macro scale and considers different failure modes. The approach subdivides into two analysis parts: discontinuous quasi-static degradation and continuous fatigue degradation. The discontinuous approach is based on a well-known failure mode theory. The continuous degradation approach makes use of an energy-based hypothesis, which combines strength and stiffness degradation. With the present approach stress redistributions and sequence effects can be investigated.",
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AU - Rolfes, R.

AU - Jansen, E.

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N2 - In order to improve the fatigue analysis of large structures made of fibre-reinforced plastics a physically motivated fatigue assessment procedure is investigated. In contrast to the analysis procedure usually applied the novel model consists of a layer-wise continuum mechanics approach on macro scale and considers different failure modes. The approach subdivides into two analysis parts: discontinuous quasi-static degradation and continuous fatigue degradation. The discontinuous approach is based on a well-known failure mode theory. The continuous degradation approach makes use of an energy-based hypothesis, which combines strength and stiffness degradation. With the present approach stress redistributions and sequence effects can be investigated.

AB - In order to improve the fatigue analysis of large structures made of fibre-reinforced plastics a physically motivated fatigue assessment procedure is investigated. In contrast to the analysis procedure usually applied the novel model consists of a layer-wise continuum mechanics approach on macro scale and considers different failure modes. The approach subdivides into two analysis parts: discontinuous quasi-static degradation and continuous fatigue degradation. The discontinuous approach is based on a well-known failure mode theory. The continuous degradation approach makes use of an energy-based hypothesis, which combines strength and stiffness degradation. With the present approach stress redistributions and sequence effects can be investigated.

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KW - Degradation

KW - Fatigue modelling

KW - Layer-based approach

KW - Reinforced composite

KW - Sequence effects

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