Single fibre transverse debonding: stress analysis of the Broutman test

The paper presents an extended analytical approach for the interfacial transverse stress that is generated by the Broutman test specimen under compression. The analysis is based on the division of the specimen into a bulk region and a near fibre region. Treating separately each region a compound equ...

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Veröffentlicht in:	Composites. Part A, Applied science and manufacturing Applied science and manufacturing, 2000-01, Vol.31 (7), p.661-670
Hauptverfasser:	Schüller, T., Beckert, W., Lauke, B., Ageorges, C., Friedrich, K.
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences B. Strength Broutman test C. Finite element analysis Composites D. Mechanical testing Exact sciences and technology Forms of application and semi-finished materials Polymer industry, paints, wood Technology of polymers
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container_end_page	670
container_issue	7
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container_title	Composites. Part A, Applied science and manufacturing
container_volume	31
creator	Schüller, T. Beckert, W. Lauke, B. Ageorges, C. Friedrich, K.
description	The paper presents an extended analytical approach for the interfacial transverse stress that is generated by the Broutman test specimen under compression. The analysis is based on the division of the specimen into a bulk region and a near fibre region. Treating separately each region a compound equation for the interfacial stress can be derived. The equation also includes residual thermal stress and fibre anisotropy. A 3D finite element model was used to validate the approach. The calculations are performed for two commonly used material systems (carbon/glass fibre, epoxy resin). A comparison between the finite element results and the analytical solutions indicates that the accuracy of the analytical approach is very good.
doi_str_mv	10.1016/S1359-835X(00)00034-8
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Part A, Applied science and manufacturing</title><description>The paper presents an extended analytical approach for the interfacial transverse stress that is generated by the Broutman test specimen under compression. The analysis is based on the division of the specimen into a bulk region and a near fibre region. Treating separately each region a compound equation for the interfacial stress can be derived. The equation also includes residual thermal stress and fibre anisotropy. A 3D finite element model was used to validate the approach. The calculations are performed for two commonly used material systems (carbon/glass fibre, epoxy resin). A comparison between the finite element results and the analytical solutions indicates that the accuracy of the analytical approach is very good.</description><subject>Applied sciences</subject><subject>B. Strength</subject><subject>Broutman test</subject><subject>C. Finite element analysis</subject><subject>Composites</subject><subject>D. 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subjects	Applied sciences B. Strength Broutman test C. Finite element analysis Composites D. Mechanical testing Exact sciences and technology Forms of application and semi-finished materials Polymer industry, paints, wood Technology of polymers
title	Single fibre transverse debonding: stress analysis of the Broutman test
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