General Higher-Order Theory for Laminated Composite Structures with Interlayer Slip
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概要
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A general higher-order approximation theory for analysis of static and/or dynamic behavior of laminated composite structures with interlayer slip is developed. Theoretical characteristics and validity of the theory are clarified using numerical examples. The theory is formulated by using a modified Hamilton's principle with relaxed displacement continuity requirements, after expanding displacements of each lamina using power series of the thickness coordinate. The independent unknown variables of this theory are the displacement coefficients of each lamina and interlamina stresses. It is shown that the present theory includes so many previous theories, and overcomes the defects of those theories.
- 一般社団法人日本機械学会の論文
- 1997-01-15
著者
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Hirashima Ken-ichi
Department Of Civil Engineering Yamanashi University
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NEGISHI Yoshikazu
Department of Civil Engineering, Fukushima National College of Technology
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Negishi Yoshikazu
Department Of Civil Engineering Fukushima National College Of Technology
関連論文
- Stress Distributions around Circular Inclusion in Infinite Plane for Nonlocal Elasticity : Matrix and Circular Inclusion have the Same Nonlocal Coefficients
- General Higher-Order Theory for Laminated Composite Structures with Interlayer Slip
- General Higher-Order Theory of Laminated Composite Structures Assuming Displacements in Each Layer