Simulation of Microfracture Process and Fracture Strength in 2-Dimensional Polycrystalline Materials
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概要
- 論文の詳細を見る
Microfracture processes of microcracking and crack propagation are simulated along with fracture strengths for 2-dimensional alumina polycrystals which have thermal anisotropy within a grain. Microcracks are generated by thermally induced residual stresses at a grain boundary. The stress concentration near the microcrack is calculated numerically by the body force method, and superposed on the preexisting residual stress. Stress intensity factors at the microcrack tip are also obtained by the method, and the location at which the next microfracture occurs is determined by the competition between microcracking and crack propagation in the new stress state. The microfracture stress increases with the progress of the fracture and decreases after maximum indicating a fracture strength. In many cases, the propagation of microcracks induces an unstable fracture. With decreasing grain size and increasing grain boundary toughness, the number of microfractures prior to the unstable state decreases, while the fracture strengths increase. For alumina of grain size 17.5 μm, when the fracture toughness of the grain boundary is 0.6 times that of the grain or greater, unstable fracture occurs prior to stable microcracking.
- 一般社団法人日本機械学会の論文
- 1996-10-15
著者
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KAWAHARA Masanori
Department of Mechanical Eengineering, Tokyo Metropolitan University
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KIM Byung-Nam
National Institute for Materials Science
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Kim Byung-nam
Research Center For Advanced Science And Technology The University Of Tokyo
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Kim Byung-nam
Department Of Mechanical Engineering Tokyo Metropolitan University
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Kawahara Masanori
Department Of Clinical Oncology Institute Of Development Aging And Cancer Tohoku University
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WAKAYAMA SHUICHI
Department of Mechanical Engineering, Graduate School of Engineering, Tokyo Metropolitan University
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Naitoh Hidehumi
Graduate Student, Tokyo Metropolitan University
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Wakayama S
Department Of Mechanical Engineering Tokyo Metropolitan University
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Wakayama Shuichi
Department Of Mechanical Engineering Graduate School Of Engineering Tokyo Metropolitan University
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Naitoh Hidehumi
Graduate Student Tokyo Metropolitan University
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Kawahara M
Otsuma Women's Univ. Tokyo Jpn
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