INTEGRATED MULTISCALE MODELLING OF GEOMETRY AND MECHANOBIOLOGY

## Abstract Many problems of fundamental and practical importance have multiscale solutions. Direct numerical simulation of these multiscale problems is difficult due to the range of length scales in the underlying physical problems. Here, we describe two multiscale methods for computing nonlinear

## Stochastic modeling of multiscale and multiphysics problems Diverse research fields of current technological importance encompassing nano materials, plasma physics, roughness and scattering in electromagnetics, fluid-structure interaction, materials, turbulence, soil contamination, transport in

Recent results of experimental studies and computer modeling of bulk pure metals, subjected to severe plastic deformation (SPD) are presented. Experimental investigations and computer modeling were conducted on different scale levels. Influence of the processing parameters on the flow character of t

Computational methodology for virtual tablet prototyping has been developed. The methodology consists of two steps: construction of virtual particle compacts of varying composition using the discrete element method (DEM), and the simulation of their dissolution by eroding individual components from