Luca Bortoloni scite author profile

Luca Bortoloni

4Publications

19Citation Statements Received

215Citation Statements Given

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152

209

Affiliations

Galileo Galilei Institute for Theoretical Physics, University of Bologna, University of Padua

Publications

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Dislocation Patterns and Work-Hardening in Crystalline Plasticity

Bortoloni

Cermelli

2004

J Elasticity

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We propose a continuum model for the evolution of the total dislocation densities in fcc crystals, in the framework of rate-independent plasticity. The basic physical features which are taken into account are: (i) the role of dislocations in hardening; (ii) the relations between the slip velocity and dislocation mobility; (iii) the energetics of self and mutual interactions between dislocations; (iv) nonlocal effects in the interaction between dislocations. A set of reaction-diffusion equations is obtained, with mobilities depending on the slip velocities, which is able to describe the formation of dislocation walls and cells. To this effect, the results of numerical simulations in two special cases are presented. (2000): 74C15, 74C20. Mathematics Subject Classifications

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Waves in approximately constrained materials and applications to fiber-reinforced composites

Bortoloni

Pastrone

2002

Wave Motion

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Crystal elasto-plasticity on the Poincaré half-plane

Arbib

Biscari

Bortoloni

et al. 2020

International Journal of Plasticity

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We explore the nonlinear variational modelling of two-dimensional (2D) crystal plasticity based on strain energies which are invariant under the full symmetry group of 2D lattices. We use a natural parameterization of strain space via the upper complex Poincaré half-plane. This transparently displays the constraints imposed by lattice symmetry on the energy landscape. Quasi-static energy minimization naturally induces bursty plastic flow and shape change in the crystal due to the underlying coordinated basin-hopping local strain activity. This is mediated by the nucleation, interaction, and annihilation of lattice defects occurring with no need for auxiliary hypotheses. Numerical simulations highlight the marked effect of symmetry on all these processes. The kinematical atlas induced by symmetry on strain space elucidates how the arrangement of the energy extremals and the possible bifurcations of the strain-jump paths affect the plastification mechanisms and defect-pattern complexity in the lattice.

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Rate-independent plasticity and statistically stored dislocations

Bortoloni

Cermelli

2004

Zeitschrift f�r Angewandte Mathematik und Physik (ZAMP)

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We present here a continuum model for the evolution of the total dislocation density in the framework of rate-independent plasticity. Three basic physical features are taken into account: (i) the role of dislocation densities on hardening; (ii) the relations between the slip velocity and the mobility of gliding dislocations; (iii) the energetics of self and mutual interactions between dislocations. We restrict attention to plastic processes corresponding to single slip. Numerical simulations showing the formation of bands are also presented. Mathematics Subject Classification (2000). 74C15, 74E15.

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Luca Bortoloni

Dislocation Patterns and Work-Hardening in Crystalline Plasticity

Waves in approximately constrained materials and applications to fiber-reinforced composites

Crystal elasto-plasticity on the Poincaré half-plane

Rate-independent plasticity and statistically stored dislocations

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