Evaluation of Fracture Behavior of Ceramic Composite Joints by Using a New Interface Potential

Author:

Serizawa Hisashi1,Lewinsohn Charles2,Singh Mrityunjay3,Murakawa Hidekazu1

Affiliation:

1. Osaka University

2. Ceramatec Inc.

3. NASA Glenn Research Center

Abstract

In order to examine mode-I & II type fracture behavior of ceramic joints, the interface element was proposed as a simple model which represents the mechanism of failure in an explicit manner. It was applied to the analyses of four point bending test and asymmetrical four point bending test for SiC/SiC composite specimen joined by ARCJoinTTM. By using a new type interface potential, which is a coupled function of opening and shear deformations, both the bending and asymmetrical bending tests were simulated. From comparison with experiments, surface energy at the interface between the joint and composite was estimated to be about 30 N/m regardless of the fracture mode. Also, from the comparison between the predicted strength and the experiments for the tensile test of lap joint of SiC/SiC composites, it was found that the proposed method was considered to have a great potential as a tool to study the failure problems whose fracture type was a mixture of mode-I & II.

Publisher

Trans Tech Publications, Ltd.

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science

Reference18 articles.

1. H. Serizawa, C.A. Lewinsohn, G.E. Youngblood, R.H. Jones, D.E. Johnston and A. Kohyama: Ceramic Engineering and Science Proceedings, Vol. 20.

2. (1999), pp.443-450.

3. A. Kohyama and Y. Katoh: Ceramic Transactions, Vol. 144 (2002), pp.3-18.

4. M. Singh: Key Engineering Materials, Vol. 164-165 (1999), pp.415-419.

5. A. Needleman: International Journal of Fracture, Vol. 42 (1990), pp.21-40.

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