Computer Modelling of Structural Transformations of Nanopores in Fcc Metals: 63 (Materials Research Foundations)

The book focuses on the effects of shock waves on vacancies and their clusters in fcc crystals. It is shown that high-speed cooperative atomic displacements represent a powerful tool for the purposeful modification of defect structures in crystalline bodies. The results are important for radiation material science nano-engineering the study of shock wave effects and the ultrasonic treatment of materials. Keywords: Computer Modelling of Nanopores Molecular Dynamics Fcc Metals Defect Structures in Crystals Radiation Material Science Nano-Engineering of Materials Ultrasonic Treatment of Materials Radiation Induced Defects Vacancy Clusters Shock Wave Effects Radiation-Resistant Materials Thermomechanical Processing Energy Transfer Mechanism Nanopore Nucleation Nanopore Based Filters Nanopore Based Detectors Cooling Elements in Nano-Electronics.