Fatigue crack growth properties of carbon-polyamide 6 thermoplastic composites using a multi-ΔG control method

•A new multi-ΔG control approach to perform mode I fatigue crack growth under constant ΔG is presented.•The crack propagation behaviour can be accurately described using the Hartman-Shijves equation.•First results concerning the fatigue crack growth behaviour of C/PA6 composites are presented. The p...

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Veröffentlicht in:Engineering fracture mechanics 2021-07, Vol.252, p.107825, Article 107825
Hauptverfasser: Arhant, Mael, Lolive, Eric, Bonnemains, Thomas, Davies, Peter
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container_title Engineering fracture mechanics
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creator Arhant, Mael
Lolive, Eric
Bonnemains, Thomas
Davies, Peter
description •A new multi-ΔG control approach to perform mode I fatigue crack growth under constant ΔG is presented.•The crack propagation behaviour can be accurately described using the Hartman-Shijves equation.•First results concerning the fatigue crack growth behaviour of C/PA6 composites are presented. The present paper presents a new multi-ΔG control approach to perform mode I fatigue crack growth tests using several constant cyclic energy release rate ranges (ΔG) on only one specimen. It was successfully applied on carbon/polyamide 6 unidirectional composite specimens. After validation checks on the approach, results show that the crack propagation behaviour exhibits three different crack propagation regimes that can be accurately described using the Hartman-Shijves equation. This work has shown that the multi-ΔG control method can provide reliable crack growth propagation results and a complete ΔG versus cycles description.
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source Elsevier ScienceDirect Journals
subjects Control methods
Crack propagation
Energy release rate
Fatigue crack growth
Fatigue failure
Fatigue tests
Fracture mechanics
Mode I
Polyamide resins
Polymer matrix composites
Propagation
Sciences of the Universe
Thermoplastic composites
Unidirectional composites
title Fatigue crack growth properties of carbon-polyamide 6 thermoplastic composites using a multi-ΔG control method
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