1. Features of presented at ICoNSoM 2019.- 2. Novel models exploring cutting-edge methods for developing in nonlinear solid mechanics.- 3. 3D printing - Innovative methods.- 4. Formulation of continuum and discrete models for complex materials.
Bilen Emek Abali is after studying and working at the universities in Istanbul, Munich, Berlin, and Berkeley, currently, B. E. Abali is working as an affiliated researcher at the Ghent University in Belgium. A rigorous scientific and teaching expertise he has obtained over the years as a consequence of working and lecturing in several continents. Among others, he has sponsored courses in mechanics, composite materials, numerical methods, and multiphysics simulations. His first research monograph has been published in Springer entitled as Computational Reality, presenting thermodynamical derivation of coupled phenomena involving thermomechanics with electromagnetism in solid bodies and fluids as well as their computation via the finite element method with the aid of open-source codes developed under the FEniCS project.
Ivan Giorgio is an Italian Mechanician. He received his cum laude degree in mechanical engineering at the University of Rome “La Sapienza” Italy, in 2004. He got a Ph.D. degree in Theoretical and Applied Mechanics in 2008 at the University of Rome “La Sapienza” Roma, Italy. He was a professor of Mechanics Applied to Machines at the University of Rome “La Sapienza”, in Latina, Italy, for the period 2017-2019. He is a tenure-track associate professor (RTDB) at the Dept. of Civil, Construction-Architectural and Environmental Engineering, University of L'Aquila, Italy. His main research activity is focused on Lagrangian Mechanics.
This book features selected manuscripts presented at ICoNSoM 2019, exploring cutting-edge methods for developing novel models in nonlinear solid mechanics. Innovative methods like additive manufacturing—for example, 3D printing— and miniaturization mean that engineers need more accurate techniques for modeling solid body mechanics. The book focuses on the formulation of continuum and discrete models for complex materials and systems, particularly the design of metamaterials.