PSI - Issue 2_B

M.R. Tyutin et al. / Procedia Structural Integrity 2 (2016) 2764–2771 M.R. Tyutin/ Structural Integrity Procedia 00 (2016) 000–000

2771

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References

Botvina, L.R., 2008. Fracture: Kinetics, Mechanisms, and General Laws. Nauka (Ed.), Moscow, p. 334. (in Russian). Botvina, L.R., Soldatenkov A.P., Levin, V.P., Tyutin, M.R., Demina, Yu.A., Petersen, T.B., Dubov, A.A., Semashko, N.A., 2016. Estimation of the Damage Characteristics of a Low-Carbon Steel by Physical Methods. Russian Metallurgy (Metally) 2016 (1), 21-33. Botvina, L.R., Zharkova, N.A., Tyutin, M.R., Soldatenkov, A.P., Demina, Yu.A., Levin, V.P., 2013. Development of plastic zones and damage at various types of loading. Zavod. Lab. 79 (5), 45–56. (in Russian). Boyce, B.L., 1983. Preface to the special issue on the Sandia Fracture Challenge. International Journal of Fracture 186 (1–2), 1–3. Carpinteri, A., Lacidogna, G., Puzzi, S., 2009. From criticality to final collapse: Evolution of the “b-value” from 1.5 to 1.0. Chaos, Solitons and Fractals 41 (2), 843–853. Dubov, A.A., Dubov, Al.A., Kolokol’nikov, S.M., 2012. Magnetic Memory of Metals and Control Devices: A Tutorial. ID Spektr (Ed.), Moscow, p. 395. (in Russian). Gorkunov, E.S., Smirnov S.V., Zadvorkin, S.M., Vichuzhanin, D.I., Mitropol’skaya, S.Yu., 2004. Effect of cumulative shear deformation and damage during torsion on the magnetic properties of steel. Fizicheskaya Mezomekhanika 7 (2), 311–314. (in Russian). Gorkunov, E.S., Smirnov, S.V., Rodionova, S.S., 2003. Effect of plastic deformation under hydrostatic pressure on the damage and magnetic properties of low-carbon grade 3sp steel. Fizicheskaya Mezomekhanika 6 (5), 101–108. (in Russian). Klyuev, V.V., 2006. Nondestructive Control: A Handbook. Mashinostroenie (Ed.), Moscow, Vol. 7, p. 863. (in Russian). Richard, H.A., Benitz, K., 1983. A loading device for the creation of mixed mode in fracture mechanics. International Journal of Fracture 22 (2), R55–R58. Shiotani, T., Bisschop, J., Van Mier J.G.M., 2003.Temporal and Spatial development of drying shrinkage cracking in cement-based materials.. Eng. Fracture Mechanics 70, 1509–1525. Truell, R., Elbaum, C., Chick, B.B., 1969. Ultrasonic methods in solid state physics. Ac. Press (Ed.), NY-London, p. 307. Tyutin, M.R., Botvina, L.R., Zharkova, N.A., Petersen, T.B., Hudson, J.A., 2005. Evolution of damage in low-carbon steel in tension condition. Strength, Fracture and Complexity 3, 73–80. Vlasov, V.T.,. Dubov, A.A., 2004. Physical Fundamentals of the Metal Magnetic Memory Method. Tisso (Ed.), Moscow, p. 420. (in Russian). Zhurkov, S.N., Kuksenko, V.S., Slutsker, A.I., 1969. Formation of submicroscopic cracks in polymers under load. Fiz. Tverd. Tela 11 (1), 296– 302. (in Russian).