Nicolas Cordero
Mines ParisTech
13 Papers
46 Citations
Nicolas Cordero is an academic researcher from Mines ParisTech. The author has contributed to research in topics: Plasticity & Lüders band. The author has an hindex of 10, co-authored 13 publications. Previous affiliations of Nicolas Cordero include Karlsruhe Institute of Technology.
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Papers
Second strain gradient elasticity of nano-objects
TL;DR: In this paper, the second strain gradient continuum theory for isotropic linear elastic materials is used to model two different kinds of size-dependent surface effects observed in the mechanical behaviour of nano-objects.
146
Micromorphic approach to single crystal plasticity and damage
TL;DR: In this paper, Eringen's micromorphic approach for materials with microstructure is applied to the plasticity and damage of single crystals, and a plastic microdeformation variable and its rotational part are introduced in a standard crystal plasticity model in order to predict size effects in the overall stress response of crystalline solids.
116
Mechanical behavior of nanoscale Cu/PdSi multilayers
I. Knorr,Nicolas Cordero,Nicolas Cordero,Erica T. Lilleodden,Erica T. Lilleodden,Cynthia A. Volkert,Cynthia A. Volkert +6 more
TL;DR: In this paper, the authors performed nanoindentation and uniaxial microcompression tests on sputter-deposited crystalline Cu/amorphous Pd 0.77 Si 0.23 multilayered films with individual layer thickness ranging from 10 to 120nm.
94
First vs. second gradient of strain theory for capillarity effects in an elastic fluid at small length scales
TL;DR: In this article, the authors compare Mindlin's approach to more standard capillarity models based on a first strain gradient theory and Korteweg's equation, and propose a general micromorphic model as a numerical method to implement Mindlin’s theory in a finite element code.
74
Micromorphic modelling of grain size effects in metal polycrystals
TL;DR: In this paper, the effect of the dislocation density tensor is introduced into the classical crystal plasticity framework by means of a micromor-phic theory of single crystals.