Determining the effect of voids in GFRP on the damage behaviour under compression loading using acoustic emission

Defects in composite structures, such as voids, have a major influence on the damage behaviour and mechanical properties. Based on the conducted experiments the influence of voids on the mechanical properties of multi-axial glass fibre non crimp fabric composites under quasi-static compression load...

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Veröffentlicht in:	Composites. Part B, Engineering Engineering, 2015-03, Vol.70, p.184-188
Hauptverfasser:	Kosmann, N., Karsten, J.M., Schuett, M., Schulte, K., Fiedler, B.
Format:	Artikel
Sprache:	eng
Schlagworte:	A. Fabrics/textiles Acoustic emission B. Mechanical properties B. Porosity D. Acoustic emission Damage Failure Glass fiber reinforced plastics Mechanical properties Process parameters Resin transfer molding Voids
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creator	Kosmann, N. Karsten, J.M. Schuett, M. Schulte, K. Fiedler, B.
description	Defects in composite structures, such as voids, have a major influence on the damage behaviour and mechanical properties. Based on the conducted experiments the influence of voids on the mechanical properties of multi-axial glass fibre non crimp fabric composites under quasi-static compression load was examined. Optical in-situ inspection and acoustic emission measurement were applied to detect the failure behaviour during compression tests, while paying special attention to the early stages of damage appearance where the Young’s modulus is determined. The specimens were produced by resin transfer moulding with different processing parameters to obtain various void contents and morphologies.
doi_str_mv	10.1016/j.compositesb.2014.11.010
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subjects	A. Fabrics/textiles Acoustic emission B. Mechanical properties B. Porosity D. Acoustic emission Damage Failure Glass fiber reinforced plastics Mechanical properties Process parameters Resin transfer molding Voids
title	Determining the effect of voids in GFRP on the damage behaviour under compression loading using acoustic emission
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