Processes in Engineering Materials Under Extreme Thermal and Mechanical Loads

0388771 - ÚJF 2013 ES eng A - Abstract
Šittner, Petr - Pilch, Jan - Strunz, Pavel - Curfs, C. - Malard, B.
Processes in Engineering Materials Under Extreme Thermal and Mechanical Loads.
Perspectives for Neutron Scienece in Novel & Extreme conditions. Zaragoza: Institute of Science of Materials of Aragon, 2012. s. 33-33.
[Advanced Seminar on "Perspectives for Neutron Science in Novel & Extreme conditions". 27.05.2012-31.05.2012, Zaragoza]
Institutional support: RVO:61389005 ; RVO:68378271
Keywords : neutron diffraction * electron microscopy
Subject RIV: BM - Solid Matter Physics ; Magnetism
http://www.unizar.es/setn/eventos/perspectives/libroabstract/Todos%20abstract_ordenado_v5.pdf

Ever increasing demand for better performing engineering materials pushes material engineers to turn to multiphase and/or multicomponent materials and advanced processing methods. Since properties of such materials depend heavily on their microstructure created during processing, understanding and control of the processes responsible for microstructure evolution has become vital in modern material engineering research (Material by Design). Microstructure forming processes active during industrial processing of materials (e.g. forging, welding, spark plasma sintering, combustion synthesis) frequently take place under extreme thermal and mechanical loading conditions (high temperatures, complex loads and histories, extreme heating/cooling rates, large loading rates). It is challenging to follow them by in-situ methods and use the results to improve numerical models of industrial processing.
Permanent Link: http://hdl.handle.net/11104/0217684