金属基繊維複合材料の非線形挙動におよぼす繊維の干渉と界面の相互効果

Call No. (NDL): Z17-B32
Bibliographic ID of National Diet Library: 7917543

Material type: 記事

Author: 渋谷嗣

Publisher: 秋田 : 日本素材物性学会

Publication date: 2006-03

Material Format: Paper

Journal name: 素材物性学雑誌 = Journal of the Society of Materials Engineering for Resources of Japan 18(1・2) (通号 31) 2006.3

Publication Page: p.28～33

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Paper

Material Type: 記事
Title: 金属基繊維複合材料の非線形挙動におよぼす繊維の干渉と界面の相互効果
Author/Editor: 渋谷嗣
Author Heading: 渋谷嗣
Periodical title: 素材物性学雑誌 = Journal of the Society of Materials Engineering for Resources of Japan
No. or year of volume/issue: 18(1・2) (通号 31) 2006.3
Volume: 18
Issue: 1・2
Sequential issue number: 31
Pages: 28～33
Publication date of volume/issue (W3CDTF): 2006-03
ISSN (Periodical Title): 0919-9853
ISSN-L (Periodical Title): 0919-9853
Publication (Periodical Title): 秋田 : 日本素材物性学会
Place of Publication (Country Code): JP
Text Language Code: jpn
Subject Heading: Composite Material
Metal Matrix
Homogenization Theory
Periodical Cluster
Residual Stress
Frictional Contact Interface
NDLC: ZP1
Target Audience: 一般
Holding library: 国立国会図書館
Call No.: Z17-B32
Data Provider (Database): 国立国会図書館 : 国立国会図書館雑誌記事索引
https://ndlsearch.ndl.go.jp
Bibliographic ID (NDL): 7917543
http://id.ndl.go.jp/bib/7917543
Bibliographic Record Category (NDL): 632

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Summary, etc.: Metal matrix composites are promising material system with high strength-to-weight and stiffness-to-weight for high temperature application. Mechanical behavior of the metal matrix composite is affected by microscopically distributed residual stress owing to interaction of fibers. A periodical cluster model is made to analyze both macro-and microscopic behavior of the composite. On the basis of the periodicity of the microstructure, the homogenization theory with asymptotic expansion is applied to connect the macro behavior with the microscopic structure. Formulation on the homogenized constitutive relation is described as the solution for perturbed displacement of the composite. The fiber-matrix interface of the composite is modeled as Coulomb frictional contact under compressive residual stress. To solve for the perturbed displacement field of the composite, boundary integral formulation is introduced into the interface contact problem. The formulation enables simultaneous numerical calculations for macro-and microscopic fields to evaluate nonlinear mechanical behavior of composite. Numerical calculation is made to clear the relation of the residual stress distribution to the nonlinear behavior of the composite.
DOI: 10.5188/jsmerj.18.28
Access Restrictions: インターネット公開
Data Provider (Database): 科学技術振興機構 : J-STAGE
http://www.jstage.jst.go.jp

Digital

Summary, etc.: Metal matrix composites are promising material system with high strength-to-weight and stiffness-to-weight for high temperature application. Mechanical behavior of the metal matrix composite is affected by microscopically distributed residual stress owing to interaction of fibers. A periodical cluster model is made to analyze both macro-and microscopic behavior of the composite. On the basis of the periodicity of the microstructure, the homogenization theory with asymptotic expansion is applied to connect the macro behavior with the microscopic structure. Formulation on the homogenized constitutive relation is described as the solution for perturbed displacement of the composite. The fiber-matrix interface of the composite is modeled as Coulomb frictional contact under compressive residual stress. To solve for the perturbed displacement field of the composite, boundary integral formulation is introduced into the interface contact problem. The formulation enables simultaneous numerical calculations for macro-and microscopic fields to evaluate nonlinear mechanical behavior of composite. Numerical calculation is made to clear the relation of the residual stress distribution to the nonlinear behavior of the composite.
DOI: 10.5188/jsmerj.18.28
https://doi.org/10.5188/jsmerj.18.28
Access Restrictions: インターネット公開
Related Material (URI): http://hdl.handle.net/10295/612
https://air.repo.nii.ac.jp/records/834
http://id.ndl.go.jp/bib/7917543
https://ndlsearch.ndl.go.jp/books/R000000004-I7917543
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Bibliographic ID (NDL): 7917543
http://id.ndl.go.jp/bib/7917543
NAID: 110006572849
130004003944

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