Advanced Manufacturing of Advanced Materials from Macro- to Nanoscale: Static to Shock Loading Athanasios G. Mamalis1; 1PC-NAE, DEMOKRITOS NATIONAL CENTER FOR SCIENTIFIC RESEARCH, Athens, Greece; PAPER: 423/Manufacturing/Plenary (Oral) SCHEDULED: 11:20/Mon./Sao Conrado (50/2nd) ABSTRACT: Some recent trends and developments in advanced manufacturing of advanced materials from macro- to nanoscale subjected to impact and shock loading, with industrial applications to net-shape manufacturing, bioengineering, safety, transport, energy and environment, an outcome of the very extensive, over 45 years, work on this field performed by the author and his research international team, are briefly outlined. The benefits of such advanced materials, manufacturing and loading techniques, products and applications in many technological areas are significant, since their impact will make the manufacturing/machine tool sector, communications, transportations, data storage, health treatment, energy conservation, environmental and human-life protection and many other technological applications better, faster, safer, cleaner and cheaper. My items considered the SIPS 2018 Mamalis International Symposium may be listed as: 1. Mechanics (Structural plasticity, Low / High speed impact loading, Hypervelocity impact, Shockwaves loading) 2. Precision / Ultraprecision manufacturing from macro-, micro- to nanoscale (Metal forming, Metal removal processing, Surface engineering / Wear, Non-conventional techniques) 3. Nanotechnology / Nanomaterials manufacturing 4. Ferrous and non-ferrous (Metals, Ceramics, Superhard, Polymers, Composites, Multifunctional), materials from macro- to nanoscale (Nanostructured materials, Nanoparticles, Nanocomposites) 5. Powder production and processing technologies (High strain-rate phenomena and treatment under shock: Explosives, Electromagnetics, High temperature / high pressure techniques) 6. Biomechanics / Biomedical engineering 7. Transport / Crashworthiness of Vehicles: Passive and active safety for passengers and cargo (Surface transport: Automotive, Railway; Aeronautics: Aircraft, Helicopters) 8. Energy (Superconductors, Semiconductors, Electromagnetics, Solar cells, Photovoltaics, Nuclear reactors) 9. Environmental aspects (Impact on climate change: Nanotechnology; Automotive industry; Aeronautics industry) 10. Safety (Detection of explosives and hazardous materials) 11. Defense (Ballistics, Projectiles hitting targets, Shock loading) 12. Industrial sustainability |