The effects of functional groups of surface modifier on internal friction and Young's modulus of ceramic composites

T. Shimazu, N. Isu, M. Miura, E. H. Ishida

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

The effect of surface modification on mechanical properties of Al 2TiO5-MgTi2O5 high damping composites is discussed. Depending on the functional group of the silane coupling agent, using a hard type polymer surface modification treatment, Young's modulus increased but internal friction decreased. It was verified that the roughness of the ground surface is reduced after the surface treatment. The results suggest that the bonding strength between ceramic particles was increased.

Original languageEnglish
Title of host publicationProceedings of the 2nd Int. Conf. Characterization and Control of Interfaces for High Quality Advanced Materials, and Joining Technology for New Metallic Glasses and Inorganic Materials
Pages467-472
Number of pages6
Publication statusPublished - 2007 Dec 1
Event2nd International Conference on Characterization and Control of Interfaces for High Quality Advanced Materials, and Joining Technology for New Metallic Glasses and Inorganic Materials - Kurashiki, Japan
Duration: 2006 Sep 62006 Sep 9

Publication series

NameCeramic Transactions
Volume198
ISSN (Print)1042-1122

Other

Other2nd International Conference on Characterization and Control of Interfaces for High Quality Advanced Materials, and Joining Technology for New Metallic Glasses and Inorganic Materials
CountryJapan
CityKurashiki
Period06/9/606/9/9

ASJC Scopus subject areas

  • Ceramics and Composites
  • Materials Chemistry

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    Shimazu, T., Isu, N., Miura, M., & Ishida, E. H. (2007). The effects of functional groups of surface modifier on internal friction and Young's modulus of ceramic composites. In Proceedings of the 2nd Int. Conf. Characterization and Control of Interfaces for High Quality Advanced Materials, and Joining Technology for New Metallic Glasses and Inorganic Materials (pp. 467-472). (Ceramic Transactions; Vol. 198).