PSI - Issue 20

Valeriy V. Lepov / Procedia Structural Integrity 20 (2019) 1–3 Valeriy V. Lepov / Structural Integrity Procedia 00 (2019) 000–000

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The development and application of the new technologies for the deformation of materials, including additive technologies, materials strength and cold-resistance improve, resource increase, wear resistance of the drilling tool reduce the risk of technological disasters in extreme environments in gas and oil production, mining, pipeline, rail and road transport, construction and housing industries and communal services. The need for accelerated development of basic industries (mining, oil, gas) and mechanical engineering (machine tools, robotics, transport and metallurgical engineering, shipbuilding, construction equipment, construction, lifting and transport, road construction, mining and transport equipment, etc.) becomes obvious., it is necessary to take into account the extreme climatic, complex mining and geological, transport and logistics, energy and extremely unfavorable socio-economic conditions of industrial production. The development of the engineering industry in the Northern regions against the background of infrastructure development, economic growth and improving the living standards of the population leads to environmental problems for the natural environment and increase the risk of man-made accidents and catastrophes. Therefore, the priority task is to ensure the technogenic, environmental and energy security of the North-East of Russia and the Arctic region as a whole, providing the integrity with the European scientific society and economy. The Symposium has integrated more than 200 participants from different cities of Russia and the world, and at three sessions were heard 7 plenary, 65 oral and 25 poster presentations. Acknowledgements This Conference has been supported by the Government of Russian Federation, by the Ministry of Education and Science, Moscow. The informational assistance has been realized by European Society of Structural Integrity (ESIS), in the person of ESIS President Francesco Iacoviello, University of Cassino, Italy. References Arkhangelskaya, E.A., Lepov, V.V., Larionov, V.P., 2003. The Role of Defects in the Development of Delayed Fracture of a Damaged Medium under the Effect of Hydrogen. Materialovedenie 8, 7–10. (in Russian) Fracture. An Advanced Treatise, ed. Liebovitz, H., 1968. Academic Press, New York and London. Griffith, A.A., 1920. The phenomenon of rupture and flow in solids. Phil. Trans. Roy. Soc. Ser. A 221, 163–198. Hell, S.W., et al, 2015. The 2015 super-resolution microscopy road map. J. Phys. D: Appl. Phys. 48, 443001. Ioffe, A.F., Kirpicheva, M.F., Levitskaya, M. A., 1925. Problem of brittle fracture. Zh. Rus. Fiz.-Khim. Obshch. 56( 5), 489-495. Ιο ffe, A.F., 1928. The Physics of Crystals, McGraw Hill, New York and London. Lepov, V., et al., 2008. The mechanism of nanostructured steel fracture at low temperatures. Nanotechnology in Russia 3, 734. Lepov, V., et al., 2018. Microstructure analyses and multiscale stochastic modeling of steel structures operated in extreme environment. Procedia Structural Integrity 22, 1201-1208.