Internal variables and scale separation in dynamics of microstructured solids. Borodich ed. Internal variables and microstructured materials. Internal variables and dynamic degrees of freedom. Non-Equilibrium Thermodynamics, , 33, 3, Numerical simulation of interaction of solitary deformation waves in microstructured solids. On modelling dispersion in microstructured solids.
Wave Motion, , 45, 4, Inverse problems related to a coupled system of microstructure.
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Inverse Problems, , 24, 4, Microstructured solids and inverse problems. Rendicorti Sem.
Torino, , 65, 2, Vendelin, V. Saks, and J. Principles of mathematical modelling and in silico studies of integrated systems of cellular energetics. In: V. Saks Ed. Wiley, Weinheim, , Front dynamics in inhomogeneous solids. Engelbrecht, P. On the interaction of deformation waves in microstructured solids.
Saks, M. Vendelin, M. Aliev, T. Kekelidze, and J. Mechanisms and modeling of energy transfer between intracellular compartments. In: G. Gibson, and G. Brain Energetics. Integration of Molecular and Cellular Processes. Springer, New York, , Numerical simulation of waves and fronts in inhomogeneous solids. Nowacki and Han Zhao, eds. Nonlinear deformation waves in solids. Wave Motion, , 44, Modelling and numerical simulation of non-classical effects of waves, including phase transition fronts. Delsanto Ed. Numerical simulation of nonlinear elastic wave propagation in piecewise homogeneous media.
Materials Science and Engineering. Berezovski, F.
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Pastrone, M. Deformation waves in microstructured solids and dispersion. Monaco [et al. New Jersey: World Scientific, , Braun and A. Hierarchies of waves in nonclassical materials. Delsanto, ed.
Mechanics of Microstructured Solids
Mathematical modelling of cardiac mechanoenergetics. Holzapfel, R. Waves in microstructured solids and dispersion. Phil Mag, , 85, , Berezovski, G. Dynamics of phase boundaries in thermoelastic solids. Flesch, H. Irschik, M. Krommer, eds. An inverse solitary wave problem related to microstructured materials. Inverse Problems, , 21, Waves in microstructured solids: Inverse problems. Wave Motion, , 43, On the problem of periodicity and hidden solitons for the KdV model. Chaos, , 15, Solitary waves in nonlinear microstructured materials.
A: Math. Salupere, J. Engelbrecht, O. Ilison, L. On solitons in microstructured solids and granular materials. Soomere, J. Extreme elevations and slopes of interacting solitons in shallow water. Wave Motion, , 41, 2, Wave propagation in functionally graded materials. Peterson, T.
Engelbrecht, E van Groesen. Interaction soliton as a possible model for extreme waves in shallow water. On the long-time behaviour of soliton ensembles. Simulation, , 62, Numerical simulation of two-dimensional wave propagation in functionally graded materials. Stress wave propagation in functionally graded materials. Numerical simulation of waves and fronts in structured materials: a thermodynamic approach. Pastrone, A.
Mechanics of Microstructured Solids : Cellular Materials, Fibre Reinforced Solids and Soft Tissues
Waves in microstructured materials: comparative analysis of models. Matematics, Univ. Torino, , N. Sillat and J. Numerical simulation of thermoelastic wave and phase-transition front propagation. Cohen, E. Heikkola, P. Joly, P. Neittaanmaki, Eds. Engelbrecht and F. Waves in microstructured solids with nonlinearities in micro- scale. Vendelin, P. Bovendeerd, J. Engelbrecht and T. Optimizing ventricular fibres: uniform strain or stress, but not ATP consumption, leads to high efficiency.
Heart Circ. A thermodynamic approach to modeling of stress-induced phase-transition front propagation in solids. In: Q. Sun Ed. Lifespan David Sinclair Inbunden. Spara som favorit. Skickas inom vardagar. Franco Pastrone and Prof. This book presents a collection of contributions on the advanced mechanics of materials and mechanics of structures approaches, written in honor of Professor Kienzler.
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