Multiscale Materials Modeling is a fast growing field with applications to ever more complex materials (interfacing crystalline, amorphous as well as biological materials) involving increasingly complex physical phenomena (combining solid and contact mechanics as well as electronics and chemistry). Such applications require increasingly more complex mathematical algorithms and often more computing power. In addition to the traditional themes of MMM - such as mathematical foundation of multiscale methods, multiscale mechanics, microstructural evolution, synergies between modeling and experiments, materials design, soft matter, irradiated materials, tribology - we propose to stress through MMM 2016 the growing importance of multiscale modeling of amorphous materials, nano-alloys, interfaces, solidification, activated processes in materials, architected and porous materials. |