Probabilistic Strength Estimation for Ceramic-Metal Joints with Various Interlayer Thicknesses(<Special Issue>Reliability Engineering in Materials and Structures)
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概要
- 論文の詳細を見る
Residual stress generated by thermal expansion coefficient mismatch between ceramic and metal is an important problem affecting the strength of ceramic-metal joints. An interlayer, which is a ductile metal, is often inserted between ceramic and metal in order to relax this residual stress. In this study, the residual stress produced in the joint-cooling process is analyzed and 4-point bending tests are carried out. From the viewpoint of experimental observations and fracture mechanics, the effects of interlayer thickness on joint strength in ceramic/metal joints are discussed considering the superimposed stress distribution of the residual stress and the bending stress. Joint strength is then estimated based on fracture mechanics and fracture probability considering the superimposed stress, crack size and position of pre-existing defects in the ceramics. The optimum interlayer thickness for the present specimen is identified, and the estimation method is extended to the analysis of generic joint strength using normalized strength of ceramic by expressing joint strength in terms of normalized strength considering the scatter of joint strength and the effective volume.
- 社団法人日本材料学会の論文
- 2002-09-15
著者
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Okabe Nagatoshi
Graduate school of Science and Engineering, Ehime University
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Zhu Xia
Graduate School Of Science And Engineering Ehime University
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Zhu Xia
Department Of Bioresources Chemistry Faculty Of Horticulture Chiba University
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OKABE Nagatoshi
Department of Mechanical Engineering, Ehime University
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OKABE Nagatoshi
Toshiba Corporation
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Okabe N
Ehime Univ. Ehime
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Okabe Nagatoshi
Ehime University
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Okabe Nagatoshi
Graduate School Of Science And Engineering Ehime University
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Okabe Nagatoshi
Department Of Mechanical Engineering Ehime University
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Takahashi Masaoki
Deapartment Of Polymer Science And Engineering Kyoto Institute Of Technology
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Takahashi Manabu
Department of Mechanical Engineering, Ehime University
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KAGAWA Ken-ichiro
Tochigi Research Centre
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Takahashi Manabu
Department Of Mechanical Engineering Ehime University
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Takahashi Manabu
Department of Chemistry, Faculty of Education, Akita University
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