Ryohji Shirao scite author profile

Ryohji Shirao

5Publications

13Citation Statements Received

12Citation Statements Given

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Affiliations

Kyushu Institute of Technology

Publications

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Intensity of singular stress fields causing interfacial debonding at the end of a fiber under pullout force and transverse tension

Noda

Shirao

et al. 2007

International Journal of Solids and Structures

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In this study, singular stress fields at the ends of fibers are discussed by the use of models of rectangular and cylindrical inclusions in a semi-infinite body under pullout force. Those singular stresses have not been discussed yet in the previous studies for pullout problems although they are important for causing interfacial initial debonding. The body force method is used to formulate those problems as a system of singular integral equations where unknowns are densities of the body forces distributed in a semi-infinite body having the same elastic constants as those of the matrix and inclusions. In order to compare the results with the previous solutions, tension problems of a fiber in a semi-infinite body are also considered. Then, generalized stress intensity factors at the corner of rectangular and cylindrical inclusions are systematically calculated for various geometrical conditions with varying the elastic ratio, length, and spacing of the location from edge to inner of the body. The effects of elastic modulus ratio and aspect ratio of inclusion upon the stress intensity factors are discussed for pullout problems.

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Intensity of Singular Stress at the End of a Fiber under Pull-Out Force

Noda¹,

Takase²,

Shirao³

et al. 2007

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Intensity of Singular Stress at the End of a Fiber under Pull-Out Force

Noda

Takase

Shirao

et al. 2007

KEM

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In this study, singular stress fields at the ends of fibers are discussed by the use of models of rectangular and cylindrical inclusions in a semi-infinite body under pull-out force．The body force method is used to formulate those problems as a system of singular integral equations where the unknown functions are densities of the body forces distributed in a semi-infinite body having the same elastic constants as those of the matrix and inclusions.Then generalized stress intensity factors at the corner of rectangular and cylindrical inclusions are systematically calculated with varying the elastic ratio, length, and spacing of the location from edge to inner of the body. The effects of elastic modulus ratio and aspect ratio of inclusion upon the stress intensity factors are discussed.

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Intensity of Singular Stress at the End of a Fiber under Pull-out Force

Noda

Shirao²,

Li³

et al. 2006

Trans.JSME, Ser.A

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A14 Intensity of Singular Stress for a Fiber under Pull-out Force

Noda

Shirao

et al. 2006

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Ryohji Shirao

Intensity of singular stress fields causing interfacial debonding at the end of a fiber under pullout force and transverse tension

Intensity of Singular Stress at the End of a Fiber under Pull-Out Force

Intensity of Singular Stress at the End of a Fiber under Pull-Out Force

Intensity of Singular Stress at the End of a Fiber under Pull-out Force

A14 Intensity of Singular Stress for a Fiber under Pull-out Force

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