Micromorphic continuum modelling of the deformation and fracture behaviour of nickel foams |
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| Institution: | 1. GEOMAS, INSA-Lyon, Université de Lyon, 20 avenue Albert Einstein, Villeurbanne cedex 69621 France;2. Head of Chair for Nonlinear Analysis and Modelling, Fakultät für Mathematik, Universität Duisburg-Essen, Mathematik-Carrée, Thea-Leymann-Straße 9, Essen 45127, Germany;1. Institute of Applied Mechanics of Russian Academy of Sciences, Leningradskiy Ave., 7a, Moscow, 125040, Russia;2. Department of Mechanical Engineering, Dalhousie University, Halifax, Nova Scotia, B3H 4R2, Canada |
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| Abstract: | An anisotropic compressible plasticity model is incorporated into the framework of the micromorphic continuum theory in order to describe some size effects observed in ductile nickel foams. This continuum model reproduces the fact that the presence of a machined hole in a foam plate does not affect its mechanical response when the hole size becomes comparable to the cell size of the material. Finite element simulations are compared to strain field measurements in nickel foam plates with a machined hole for different hole sizes, in order to identify the characteristic length of the model. Based on a simple ductile damage law, the model is then shown to be able to account for the strong anisotropy of the initiation of crack propagation in central crack panels made of nickel foams under mode I loading conditions. |
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