On the Nature of Opaque Cylindrical Regions Formed at Fibre Break Sites in a Fragmentation Test-Reference-Cited by-同舟云学术

On the Nature of Opaque Cylindrical Regions Formed at Fibre Break Sites in a Fragmentation Test

Published:2002-01 Issue:1 Volume:11 Page:096369350201100
ISSN:2633-366X
Container-title:Advanced Composites Letters
language:en
Short-container-title:Advanced Composites Letters

Author:

Kislev T.¹²,Marom G.¹,Berglund L.³,Joffe R.³,Nairn J.A.⁴,Wagner H. D.²

Affiliation:

1. Casali Institute of Applied Chemistry, Edmond Safra Campus, Givat Ram, The Hebrew University of Jerusalem, Jerusalem, Israel

2. Dept. of Materials and Interfaces, The Weizmann Institute of Science, Rehovot Israel

3. Dept. of Materials and Manufacturing Engineering, Division of Polymer Engineering, University of Lulea, Sweden

4. Material Science and Engineering Department, University of Utah, U.S.A

Abstract

When a single-fibre composite test is performed to obtain information about the interfacial adhesion in a composite, a gradual strain increase often causes an opaque (black) cylinder to nucleate at, and grow from, the fibre failure sites. The nature of the opaque cylinder is difficult to ascertain using optical microscopy. This is the subject of the present note. To study the inside of the opaque cylinder we use several experimental methods based on imaging the failed region: optical microscopy, laser Raman spectroscopy and scanning electron microscopy. Mechanical models, including FEM analysis and analytic equations based on the shear-lag approach, are used to discuss the experimental work. The nature and growth mechanism of the opaque cylinder are of importance in defining the parameters and/or contributions that appear in both the force balance and the energy balance schemes.

Publisher

SAGE Publications

Link

http://journals.sagepub.com/doi/pdf/10.1177/096369350201100101

Reference10 articles.

1. Interpretation of the fragmentation phenomenon in single‐filament composite experiments

2. Tensile properties of fibre-reinforced metals: Copper/tungsten and copper/molybdenum

3. An Energy-Based interpretation of Interfacial Adhesion from Single Fibre Composite Fragmentation Testing

4. Toughness of interfaces from initial fiber-matrix debonding in a single fiber composite fragmentation test

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