Shear strength of the lyocell fiber/polymer matrix interface evaluated with the microbond technique-Reference-Cited by-同舟云学术

Shear strength of the lyocell fiber/polymer matrix interface evaluated with the microbond technique

Published:2010-12-16 Issue:3 Volume:46 Page:359-367
ISSN:0021-9983
Container-title:Journal of Composite Materials
language:en
Short-container-title:Journal of Composite Materials

Author:

Adusumalli Ramesh-Babu¹,Reifferscheid Moritz²,Weber Hedda K.²³,Roeder Thomas³,Sixta Herbert³⁴,Gindl Wolfgang²⁵

Affiliation:

1. Laboratory for Mechanics of Materials and Nanostructures, EMPA-Swiss Federal Research Institute for Material Science and Technology, Thun, Switzerland.

2. Kompetenzzentrum Holz GmbH, Linz, Austria.

3. Lenzing R&D, Lenzing, Austria.

4. Department of Forest Product Technology, Helsinki University of Technology, Finland.

5. Department of Materials Science and Process Engineering, BOKU-Vienna, Vienna, Austria.

Abstract

An experimental investigation into the adhesion of regenerated cellulose fiber lyocell, natural cellulose fiber ramie, and E-glass fiber to the polypropylene (PP) and epoxy matrices, by means of the microbond technique, was conducted. Force–displacement plots indicate a brittle failure of the interface, followed by high frictional forces in the PP matrix and low frictional forces in the epoxy matrix. The interfacial shear strength (IFSS) of lyocell–epoxy system was significantly higher than that measured in the lyocell–PP system. Chemical modification of lyocell fiber with maleic anhydride resulted in a two-fold increase in IFSS with PP. Ramie exhibits better adhesion characteristics, due mainly to the rough surface, than lyocell.

Publisher

SAGE Publications

Subject

Materials Chemistry,Mechanical Engineering,Mechanics of Materials,Ceramics and Composites

Link

http://journals.sagepub.com/doi/pdf/10.1177/0021998310382312

Reference30 articles.

1. Natural Fibers, Biopolymers, and Biocomposites

2. Visualisation of dislocations in hemp fibres: A comparison between scanning electron microscopy (SEM) and polarized light microscopy (PLM)

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