Fibre type, textile architecture, inter phase properties, fibre properties and content were found to affect the fatigue behaviour strongly as illustrated with damping versus applied maximum load curves. It was found that natural fibre reinforced plastics with higher fibre strength and modulus, stronger fibre–matrix adhesion or higher fibre fractions possess higher critical loads for damage initiation and higher failure loads. In addition, damage propagation rates were reduced.Furthermore, unidirectional composites were less sensitive to fatigue induced damage than woven reinforced ones.
A study of fibre and interface parameters affecting the fatigue behaviour of natural fibre composites. Compos A. Available from: https://www.researchgate.net/publication/222775778_A_study_of_fibre_and_interface_parameters_affecting_the_fatigue_behaviour_of_natural_fibre_composites_Compos_A [accessed Dec 15, 2015].
Fibre type, textile architecture, inter phase properties, fibre properties and content were found to affect the fatigue behaviour strongly as illustrated with damping versus applied maximum load curves. It was found that natural fibre reinforced plastics with higher fibre strength and modulus, stronger fibre–matrix adhesion or higher fibre fractions possess higher critical loads for damage initiation and higher failure loads. In addition, damage propagation rates were reduced.Furthermore, unidirectional composites were less sensitive to fatigue induced damage than woven reinforced ones. A study of fibre and interface parameters affecting the fatigue behaviour of natural fibre composites. Compos A. Available from: https://www.researchgate.net/publication/222775778_A_study_of_fibre_and_interface_parameters_affecting_the_fatigue_behaviour_of_natural_fibre_composites_Compos_A [accessed Dec 15, 2015].
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