ホットプレス窒化珪素セラミックスの微細組織と破壊じん性との関係
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A change in dominant toughening mechanism with microstructure in HP-Si_3N_4 ceramics has been investigated through the model calculation of toughening by crack deflection and through the atomic force microscope(AFM) observation of crack-tips. The microstructure of HP-Si_3N_4 was controlled by sintering temperature, ranging from 1773K to 2073K. The grain size was almost constant, 0.14〜0.16 μm, from 1773K to 1923K, and the aspect ratio increased from 1.6 at 1773K to 9.4 at 1923K. After the aspect ratio reached a maximum at 1923K, it decreased and the grain size increased. The aspect ratio was 5.6 and the grain size was 0.36 μm at 2073K. The contributions of aspect ratio and grain size to toughening were separately evaluated using these specimens. Toughening by crack deflection was estimated by model calculation and by the crack shape in AFM image of crack-tips. Toughening by crack bridging was estimated by roughness at the upper and lower crack planes in the AFM images. When crack bridging contributed to toughening, stress was produced between the upper and lower crack planes, strain resulted from this stress and roughness resulted from this strain. When crack bridging didn't contribute to toughening, roughness wasn't observed. The model calculation and AFM results show that when the grain size was constant and the aspect ratio increased, the dominant toughening mechanism was crack deflection. When the grain size began to increase crack bridging came to contribute to toughening and the dominant toughening mechanism was the combination of crack deflection and crack bridging.
- 社団法人日本材料学会の論文
- 1995-08-15
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関連論文
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- 三次元での真のアスペクト比と断面における見掛けのアスペクト比との関係式の導出
- 3A27 HP-Si_3N_4 セラミックスの粒子形状と K_ 値との関係
- ホットプレスSi_3N_4における破壊靭性と曲げ強度との相関
- ホットプレス窒化珪素セラミックスの微細組織と破壊じん性との関係