Computational modeling and design for continuous conductive structures in self-diagnosis composite

Hiroshi Nomura; Hideaki Matsubara; Atsumu Ishida; Yoshiki Okuhara; Soon-Gi Shin; Hiroaki Yanagida

doi:10.1117/12.424419

6 April 2001 Computational modeling and design for continuous conductive structures in self-diagnosis composite

Hiroshi Nomura, Hideaki Matsubara, Atsumu Ishida, Yoshiki Okuhara, Soon-Gi Shin, Hiroaki Yanagida

Proceedings Volume 4234, Smart Materials; (2001) https://doi.org/10.1117/12.424419
Event: Smart Materials and MEMS, 2000, Melbourne, Australia

Abstract

We have successfully developed the computer simulation technique of modeling and design for continuous conductive structures in the self-diagnosis composite. The Monte Carlo (MC) method has been used for the simulations of the microstructures at the array of two or three dimensional lattices. The simulation results were analyzed and discussed in relation to microstructural parameters such as particle size, content, aspect ratio, etc. The computer simulation gave us important and quantitative information to obtain continuous structure of the particles dispersed in a matrix phase.

Citation Download Citation

Hiroshi Nomura, Hideaki Matsubara, Atsumu Ishida, Yoshiki Okuhara, Soon-Gi Shin, and Hiroaki Yanagida "Computational modeling and design for continuous conductive structures in self-diagnosis composite", Proc. SPIE 4234, Smart Materials, (6 April 2001); https://doi.org/10.1117/12.424419

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