Multiscale design of supermaterials frontier for high performance engineering

• Jaime Ortún-Palacios ^{[1] [1]} ; Sarah Fadda ^{[2] [3]} ; Violeta Yeguas ^{[1] [1]} ; Roberto Serrano-López ^{[1] [1]} ; Antonio Mario Locci ^[3] ; Francesco Delogu ^[3] ; Nicolás A. Cordero ^{[1] [1] [4]} ; Santiago Cuesta-López ^{[1] [1]}
  1. [1] Universidad de Burgos

     Universidad de Burgos

     Burgos, España

     
  2. [2] Imperial College London

     Imperial College London

     Reino Unido

     
  3. [3] University of Cagliari

     University of Cagliari

     Cagliari, Italia

     
  4. [4] Universidad de Granada

     Universidad de Granada

     Granada, España

     

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• Localización: III Jornadas de Doctorandos de la Universidad de Burgos: Universidad de Burgos, 15 y 16 de diciembre de 2016 / coord. por José Luis Cuesta Gómez; Joaquín A. Pacheco Bonrostro (dir.), 2016, ISBN 978-84-16283-30-9, págs. 251-254
• Idioma: inglés
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• Resumen

  • Currently, some of the most important limitations for the optimal design of nanostructured materials with tailored properties are the lack of tools for predictive modelling on the damage suffered and their mechanical behaviour. Note that being able to predict final properties by multiscale modelling is an anticipated design capacity that saves costs and allows designing Optimal solutions in an efficient manner what at level of production line and innovation has indisputable advantages. Therefore, the design of metal matrix composites (MMCs) and nanoscale metallic multilayer composites (NMMCs) is a particularly attractive strategy for the development of a new generation of multifunctional materials with a tremendous number of industrial possibilities.