For Libraries For Publication Open Access Downloads About Us Contact Us
Paper Titles
Fatigue Crack Growth on FSW AA2024-T3 Aluminum Joints
p.126
Delamination-Crater Interaction in Damage of Glass/Epoxy Composite Plates Subjected to Impact Fatigue
p.139
Researches Concerning Structural and Mechanical Behavior of Sandwich Composite Polymeric Products
p.151
Structural and Mechanical Characterization of Stainless Steel Joints Realized by CMT Process
p.161
Applying of Integral Equation of Volterra for Determining the Section Forces in Composite Beam, Regarding Shrinkage of Concrete
p.173
An Analytical-Numerical Approach Concerning the Stresses and Deformations in Single-Strapped Adhesively Bonded Joints
p.187
3D Adaptive Remeshing Procedure and its Application to Large Deformation Problems
p.199
Development of an Adhesion Test for Characterizing the Interface Fiber/Polymer Matrix
p.210
Effects of the Unified Viscoplastic Formulation and Temperature Terms on the Thermomechanical Behavior of Soldering Materials
p.219

Development of an Adhesion Test for Characterizing the Interface Fiber/Polymer Matrix

Article Preview

Abstract:

There are several models on the relationship structures and properties of the composite fiber / matrix interface [1]. Including literature proposes the development of micromechanical tests suitable for assessing the shear strength of the interface fiber / polymer matrix. The first test which allowed to characterize the fiber / matrix interface is the pull-out test developed by Broutman [2]. It consists in extracting the fiber from the matrix that can be in block form, gout or disk of resin. To reduce the variation in results due to the geometries used, it was agreed to use a drop of resin with small dimensions. The test is to characterize the fiber / matrix interface of natural thermosetting or thermoplastic by determining the shear stress.

You might also be interested in these eBooks
Behaviour of Material and Composite Structures View Preview

Info:

Periodical:

Key Engineering Materials (Volume 498)

Pages:

210-218

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.498.210

Citation:

Cite this paper

Online since:

January 2012

Authors:

Bouchra Hassoune-Rhabbour, Laurence Poussines, Valérie Nassiet

Keywords:

Adhesion Test, Composite, Interface Properties

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2012 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

References

[1] P.J. Herrera-Franco, L.T. Drazl, Composites, vol. 23, 1(1992).

Google Scholar

[2] L.J. Broutman, Interface in Composites, pp.27-41 (1969).

Google Scholar

[3] A. Kelly, W.R. Tyson, J. Mech. Solids, vol. 13, pp.329-350 (1965).

Google Scholar

[4] T.J. Copponnex, Composites Sciences and Technology, vol. 56, pp.896-909 (1996).

Google Scholar

[5] M. Narkis, E.J.H. Chen, R.B. Pipes, Polymer Composites, vol 9, 4, pp.245-251 (1988).

Google Scholar

[6] Y.S. Ko, W.C. Forsman, T.S. Dziemiaowicz, Polym Engng and Sci., vol 22, pp.805-814 (1982).

Google Scholar

[7] P. Zinck and al., Polymer, vol. 42, 12, pp.5401-5413 (2001).

Google Scholar

[8] Q-S. Yang, Q-H. Qin, X-R. Peng, Composite Structures, vol. 61, pp.193-198 (2003).

Google Scholar

[9] C. Delfolie, C. Depecker, J.M. Lefebvre, Journal of Material Science, vol. 34, pp.481-495 (1999).

Google Scholar

[10] M. Saki, R. Matasuyama, T. Miyajima, Carbon, vol. 38, pp.2123-2131 (2000).

Google Scholar

[11] J. Brandstetter,H. Peterlik, K. Kromp, R. Weiss, Composites Science and Technology, vol. 63, pp.653-660 (2003).

Google Scholar

© 2025 Trans Tech Publications Ltd. All rights are reserved, including those for text and data mining, AI training, and similar technologies. For open access content, terms of the Creative Commons licensing CC-BY are applied.
Scientific.Net is a registered trademark of Trans Tech Publications Ltd.