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ID 47022
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Author
Abe, Takeji
Nagao, Makoto
Ohta, Tomoyuki
Nagayama, Noriyuki
Abstract
It is important to study the microscopic deformation behavior of inhomogeneous material, for most engineering materials are inhomogeneous. The aim of the present study is to clarify by numerical analysis some features of microscopic plastic strain distributions, the mean flow stress and the material factors affecting on it. The rigid-plastic solution is important not only for plastic deformation problems with large strain, but also for creep deformation problems through the plastic analogy in the creep analysis. The effects of material parameter and loading conditions on the deformation behavior of the material are examined and discussed based on the result of calculation. The effects of the aspect ratio of the inhomogeneous regions on the deformation mode are studied. The patterns of the strain concentration and the averaged flow stress of the inhomogeneous material are also discussed. The results of rigid-plastic material are compared with those of the elastic material.
Keywords
Plasticity
Deformation
Inhomogeneous Material
Strain Concentration Coefficient
Rigid-Plastic FEM
Published Date
2002-03
Publication Title
Memoirs of the Faculty of Engineering, Okayama University
Volume
volume36
Issue
issue2
Publisher
Faculty of Engineering, Okayama University
Start Page
7
End Page
13
ISSN
0475-0071
NCID
AA10699856
Content Type
Departmental Bulletin Paper
language
英語
File Version
publisher
Refereed
False
Eprints Journal Name
mfe