› Explicit Harmonic Structure Of Bidimensional Linear Strain-Gradient Elasticity - Nicolas Auffray, Laboratoire de Modélisation et Simulation Multi Echelle
14:00-14:30 (30min)
› Gradient materials: The different behavior of free boundaries of a body and the fictitious cut around some subbody - Arnold Krawietz, No affiliation, retired
16:30-17:00 (30min)
› Modelling contact interactions of generalized continua: microblock contact model for a Cosserat body - Stanislaw Stupkiewicz, Institute of Fundamental Technological Research, Polish Academy of Sciences
17:00-17:30 (30min)
› Three-dimensional solids and structures within strain gradient elasticity: numerical methods and model comparisons - Jarkko Niiranen, Department of Civil Engineering, Aalto University
17:30-18:00 (30min)
› A FFT-based approach for Mesoscale Field Dislocation Mechanics: applications to internal length scale effects in polycrystals and steel matrix composites - Stephane BERBENNI, LEM3 UMR 7239 Université de Lorraine, CNRS, Arts et Metiers ParisTech, France
08:30-09:00 (30min)
› A mesoscale continuum approach of dislocation dynamics and the approximation by discontinuous Galerkin methods - Christian Wieners, Karlsruhe Institute of Technology
09:00-09:30 (30min)
› On the control of elastic gaps in Gurtin-type strain gradient crystal plasticity theories using uncoupled dissipation assumption - Mohamed JEBAHI, LEM3 – UMR CNRS 7239
10:00-10:30 (30min)
› Microstructural aspects of gradient-enhanced crystal plasticity - Henryk Petryk, Institute of Fundamental Technological Research, Polish Academy of Sciences (IPPT PAN), Warsaw, Poland
11:00-11:30 (30min)
› Plastic flow and dislocation strengthening in a continuum formulation of dislocation dynamics - Katrin Schulz, Karlsruhe Institute of Technology
11:30-12:00 (30min)
› Professor - Jonas Faleskog, Dept of Engineering Mechanics, KTH Royal Institue of Technology
12:00-12:30 (30min)
› Distortion gradient plasticity modelling of the small-scale behaviour of metals under non-proportional loading - Lorenzo Bardella, Università degli Studi di Brescia [Brescia]
14:00-14:30 (30min)
› A phase field fracture and strain gradient plasticity-based model for predicting hydrogen embrittlement - Emilio Martinez-Paneda, Department of Civil and Environmental Engineering [Imperial College London]
14:30-15:00 (30min)
› The evolution of Hooke´s law under finite plastic deformations for fiber reinforced materials - albrecht bertram, Otto-von-Guericke University Magdeburg, Technische Universität Berlin
16:30-17:00 (30min)
› A stochastic solver based on the residence time algorithm for crystal plasticity models - Jaime Marian, University of California [Los Angeles]
17:00-17:30 (30min)
› Gradient models for softening thermo-plasticity at large strain - Jerzy Pamin, Cracow University of Technology
17:30-18:00 (30min)
› Green functions and integral representation of anisotropic second gradient continua. The case of pantographic lattices - Claude Boutin, Ecole Nationale des Travaux Publics de l'Etat, Université de Lyon, LGCB/ LTDS CNRS 5513
08:30-09:00 (30min)
› Predictive strain-gradient homogenization of a pantographic material with compliant junctions and experimental evidence - Arthur Lebée, Laboratoire Navier
09:00-09:30 (30min)
› Nonlinear gradient models in hyper-elasticity: from slender structures to architectured materials - Claire Lestringant, University of Cambridge
09:30-10:00 (30min)
› Direct FE2 for concurrent multiscale modelling of heterogeneous thin plate structures - Leong Hien Poh, National University of Singapore
10:00-10:30 (30min)
› Interpretation of the moduli of isotropic micromorphic elasticity by harmonic decomposition and analytical homogenisation - Geralf Hütter, TU Bergakademie Freiberg, Institute of Mechanics and Fluid Dynamics
11:00-11:30 (30min)
› Hashin–Shtrikman bounds on the effective properties of stress-gradient materials - Karam Sab, Laboratoire Navier, Laboratoire Navier
11:30-12:00 (30min)
› Enhanced flexoelectricity in heterogeneous piezoelectric composites using topology optimization - Julien YVONNET, Université Gustave Eiffel
12:00-12:30 (30min)
› Analysis of the failure of heterogeneous materials: a bottom-up approach - Julien Réthoré, GeM, ecole centrale de Nantes
12:30-13:00 (30min)
› Direct and energy based homogenization approaches within the second gradient elasticity theory : examples and general relations - Yury Solyaev, Institute of Applied Mechanics of Russian Academy of Science
13:00-13:30 (30min)
› Generalized continuum models confronted to cell-commensurate instabilities in structured media - Christelle Combescure, Institut de recherche Dupuy de Lôme, Centre de Recherche des Ecoles de St-Cyr Coëtquidan
08:30-09:00 (30min)
› Capturing Microscopic and Macroscopic Instabilities in Mechanical Metamaterials by Micromorphic Computational Homogenization - Ron Peerlings, Eindhoven University of Technology
09:00-09:30 (30min)
› Determination of Homogenized Continua Behaviors From Actual Printed Microstructures - Maxence WANGERMEZ, Laboratoire de Mécanique et Technologie
09:30-10:00 (30min)
› A Gradient-extended Large-strain Anisotropic Damage Model with Crack Orientation Director - Stephan Wulfinghoff, Kiel University - Christian Dorn, Kiel University
10:00-10:30 (30min)
› A strain-gradient plasticity model of ductile failure\\ in porous single crystals - Jean-Michel Scherer, Laboratoire Navier / Laboratoire de Mécanique des Solides
11:00-11:30 (30min)
› Thermal pressurization of earthquake faults under large co-seismic slip using Cosserat continuum - Alexandros STATHAS, PhD student
11:30-12:00 (30min)
› A granular-based elasto-plastic–damage energy formulation for strain gradient solids - Luca Placidi, International Telematic University Uninettuno
12:00-12:30 (30min)
› Development, implementation and application of a second-gradient model for porous ductile solids - Jean-Baptiste Leblond, Sorbonne Université, Faculté des Sciences et Ingénierie, Campus Pierre et Marie Curie, CNRS, UMR 7190, Institut Jean Le Rond d'Alembert
14:00-14:30 (30min)
› An FFT framework for simulating non-local ductile failure in heterogeneous materials - Javier Segurado, IMDEA Materials Institute, Department of Materials Science, Polytechnic University of Madrid, Madrid
14:30-15:00 (30min)
› Energetic versus dissipative gradient damage models: a comparative analysis - Djimédo Kondo, Institut Jean Le Rond d'Alembert, UMR CNRS 7190
15:00-15:30 (30min)
› Damage in periodic composite materials resulting from a micromechanics-based phase field approach - Marco Paggi, IMT School for Advanced Studies Lucca, IMT School for Advanced Studies Lucca
15:30-16:00 (30min)
› Mass transport and shape changes in nonhomogeneous sintering - Sinisa Mesarovic, Washington State University
16:30-17:00 (30min)
› Phase field modeling of deformation twinning in β-metastable titanium alloys - Benoît Appolaire, Institut Jean Lamour, Labex Damas, Université de Lorraine
17:00-17:30 (30min)
› A phase-field enhanced Cosserat model for prediction of microstructure evolution - Anna Ask, DMAS
17:30-18:00 (30min)
› Some perspectives on the Willis equations - Graeme Milton, Department of Mathematics, University of Utah, Salt Late City, Utah, USA
08:30-09:00 (30min)
› INTERFACIAL WAVE BETWEEN TWO ACOUSTIC BIANISOTROPIC MATERIALS - Gengkai Hu, School of Aerospace Engineering, Beijing Institute of Technology
09:00-09:30 (30min)
› An examination of primitive causality in linear generalized continuum theories - Venkata Mutnuri, Srinivasan Gopalakrishnan
09:30-10:00 (30min)
› Elastic wave propagation in non-centrosymmetric and chiral architectured materials: insights from strain gradient elasticity - Giuseppe Rosi, Modélisation et Simulation Multi-Echelle (MSME) - UMR 8208
10:00-10:30 (30min)
› An enriched continuum framework for metamaterial panels obtained through computational homogenization and model order reduction - Varvara Kouznetsova, Eindhoven University of Technology
11:00-11:30 (30min)
› Wave propagation control in active metamaterial with shunted piezoelectric microstructure - Maria Laura De Bellis, Università "G. D'Annunzio" Chieti-Pescara
11:30-12:00 (30min)
› Local material symmetry group for first- and second-order strain gradient materials with application to fluids and subfluids - Victor Eremeyev, Don State Technical University, University of Cagliari, Gdansk University of Technology
12:00-12:30 (30min)
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