SB-05-3(093) Creep of Fiber Reinforced Composites(Ceramic, Polymer and Composites)

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概要

• 論文の詳細を見る

• Creep of continuous fiber reinforced unidirectional composites is analyzed by the finite element method based on the homogenization method. The constituent fiber is assumed to be transversely isotropic elastic while the matrix is isotropic linealy elastic and nonlinearly viscoelastic. In the homogenization procedure, we assume that the periodicity of material characteristics imposes an analogous periodical perturbations on quantities describing the mechanical behavior, and obtain the macroscopic and microscopic equations in incremental form. The microscopic equations are solved by the finite element method. Theoretical predictions for the creep behavior of composites under constant load are compared with experimental results.

• 一般社団法人日本機械学会の論文
• 2001-06-03

著者

• Kondo Kyohei

  Department Of Aeronautics And Astronautics University Of Tokyo

• TAKIGUCHI Ryuichi

  Robot Systems Department, Nagoya Works, Mitsubishi Electric Corporation

• Takiguchi Ryuichi

  Robot Systems Department Nagoya Works Mitsubishi Electric Corporation

関連論文

• Delamination originating from transverse crack tips in laminates under mechanical loadings
• SB-05-3(093) Creep of Fiber Reinforced Composites(Ceramic, Polymer and Composites)

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