Isogeometric finite element analysis of mode I cracks within strain gradient elasticity
Schlagworte:
strain gradient elasticity, fracture, mode I crack, isogeometric analysisAbstract
A variational formulation within an H2 Sobolev space setting is formulated for fourth-order plane strain/stress boundary value problems following a widely-used one parameter variant of Mindlin's strain gradient elasticity theory. A corresponding planar mode I crack problem is solved by isogeometric Cp-1-continuous discretizations for NURBS basis functions of order p \ge 2. Stress eld singularities of the classical elasticity are shown to be removed by the strain gradient formulation.
Zitationsvorschlag
Niiranen, J., Khakalo, S., & Balobanov, V. (2017). Isogeometric finite element analysis of mode I cracks within strain gradient elasticity. Rakenteiden Mekaniikka, 50(3), 337–340. https://doi.org/10.23998/rm.65124
Copyright (c) 2017 Jarkko Niiranen; Sergei Khakalo, Viacheslav Balobanov
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