Title of article
Strain gradient plasticity for amorphous and crystalline polymers with application to micro- and nano-scale deformation analysis
Author/Authors
Voyiadjis، نويسنده , , George Z. and Shojaei، نويسنده , , Amir Sasan Mozaffari Nejad، نويسنده , , Navid، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2014
Pages
17
From page
4182
To page
4198
Abstract
Microscale mechanical responses of semicrystalline glassy polymers are of utmost importance when these materials are deployed in microstructural applications, e.g. MEMS and NEMS. The classical continuum plasticity theories become ill-posed in the case of highly localized deformations and they result in mesh dependent Finite Element (FE) solutions. Then the continuum theories may not directly be applicable to study stress–strain responses in nano- and micro-scale structures. The non-local modeling approach is one solution to this deficiency in which the non-local effects, associated with the presence of highly localized plastic deformation fields, are integrated into the constitutive relations. The microstructural information together with the intrinsic material length scale are incorporated in these theories to take into account the non-local effects and to ensure the well-posedness of the governing equations. While non-local theories have been extensively investigated for Metals (class M materials), this work aims to develop a rate dependent plasticity theory with strain gradient effects for semicrystalline Polymers (class P materials).
Keywords
Cosserat continuum , Semicrystalline polymers , Strain gradient plasticity
Journal title
Polymer
Serial Year
2014
Journal title
Polymer
Record number
1742310
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