Indentation deformation and microcracking in β-Si 3N 4-based nanoceramic

Ching Huan Lee, Hao Chih Liu, Horng Hwa Lu, Takashi Goto, Rong Tu, Chang An Wang, Sajalik Pavol, Jian Long Ruan, Pramoda K. Nayak, Jian Horn Chen, Qing Yu Chen, Jow Lay Huang

研究成果: Article

7 引文 斯高帕斯(Scopus)


The effects of microstructure on the mechanical responses and damage evolution of spark-plasma-sintered β-Si 3N 4-based ceramics has been evaluated through indentation tests. It was found that the nanoceramic and its coarse-grained counterpart exhibit similar elastoplastic behavior in their indentation responses. However, the increased hardness and ratio of elastic work to total work done in the nanoceramic suggest that resistance to plastic deformation is greater than that in the coarser-grained one. The microcracking behavior within the indented materials is also proposed. A finite-element analysis is used to estimate the distribution of compressive and shear stresses within the indented materials. The smaller grain size in bridging ceramic not only enhances the energy dissipation by formation of a higher density of intergranular microcracks along the weak grain boundary phase but also toughens the cracked solid through increasing resistance to plastic sliding and multi-cracks propagation. Prior to formation of the radial cracks, better damage tolerance of nanoceramic is thought to be achieved in this study.

頁(從 - 到)1421-1428
期刊Journal of the American Ceramic Society
出版狀態Published - 2012 四月 1

All Science Journal Classification (ASJC) codes

  • Ceramics and Composites
  • Materials Chemistry

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    Lee, C. H., Liu, H. C., Lu, H. H., Goto, T., Tu, R., Wang, C. A., Pavol, S., Ruan, J. L., Nayak, P. K., Chen, J. H., Chen, Q. Y., & Huang, J. L. (2012). Indentation deformation and microcracking in β-Si 3N 4-based nanoceramic. Journal of the American Ceramic Society, 95(4), 1421-1428.