Federal Research Center of Problem of Chemical Physics and Medicinal Chemistry RAS
Federal Research Center of Problem of Chemical Physics and Medicinal Chemistry RAS

Laboratory of Rheological properties of condensed media under pulsed influences

Condensed Matter Physics Metals and their alloys
Head of Laboratory

Razorenov, Sergey V

Publications
182
Citations
2 681
h-index
26
ORCID
0000-0002-4818-1846
ResearcherID
HGU-8332-2022
Scopus ID
7003338947
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Lab website

Studying shock wave phenomena in condensed media and obtaining information about the processes of high-speed deformation, destruction, structural and chemical transformations of matter under these conditions. Identification of mechanisms, determining factors and kinetic patterns of fast-flowing processes in order to ensure the predictability of intense pulse effects and the use of shock wave technology for problems of materials science, solid state physics and chemical physics. Special attention is paid to studies of the influence of structural factors on the dynamic properties of materials. Structural factors include: grain size, texture, dislocations, twins, heat treatment, various plastic deformations, etc.

  1. The research is conducted using methods of physics and mechanics of shock waves in materials and is based on measurements and analysis of the structure of elastic-plastic shock waves and their evolution as they propagate in the material.
Razorenov, Sergey V
Sergey Razorenov
Head of Laboratory
Senior Researcher
Savinykh, Andrey Sergeevich
Andrey Savinykh
Senior Researcher

Research directions

Studies of temperature-velocity dependences of resistance to deformation and destruction of condensed media

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Kanel, G. I., Garkushin, G. V., Savinykh, A. S., Razorenov, S. V., Paramonova, I. V., Zaretsky, E. B. (2022). Effect of small pre-strain on the resistance of molybdenum [100] single crystal to high strain rate deformation and fracture. Journal of Applied Physics, 131(9). Kanel, G. I., Razorenov, S. V., Garkushin, G. V., Pavlenko, A.V., Malyugina, S. N. (2016). The change in the kinetics of shock wave deformation and destruction of titanium BT1-0 as a result of annealing. Solid State Physics, 58(6), 1153-1160. Garkushin, G. V., Kanel, G. I. Razorenov, S. V. (2012). High-speed deformation and destruction of magnesium alloy Ma-2 under shock wave loading conditions. Solid State Physics, 54 (5), 1012-1018 Savinykh, A. S., Garkushin, G. V., Razorenov, S. V. (2022). The effect of small preliminary deformations and initial temperature on the resistance to high-speed deformation of armco-iron in shock waves and rarefaction waves. Journal of Experimental and Theoretical Physics, 161(6), 825-832. Kanel, G. I., Savinykh, A. S., Garkushin, G. V., Razorenov, S. V. (2020). Effects of temperature and strain on the resistance to high-rate deformation of copper in shock waves. Journal of Applied Physics, 128(11).

Investigation of the dynamic strength of materials by analyzing the "flip-off" phenomena

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Kanel, G. I. (2010). Spall fracture: methodological aspects, mechanisms and governing factors. International journal of fracture, 163, 173-191. Kanel, G. I., Savinykh, A. S., Garkushin, G. V., Razorenov, S. V. (2015). Dynamic strength of tin and lead melts. Letters to the Journal of Experimental and Theoretical Physics, 102(8), 615-619.

Investigation of polymorphic transformations and phase transitions under shock compression

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Savinykh, A. S., Kanel, G. I., Razorenov, S. V. (2007). The effect of the structural state of graphite on the parameters and kinetics of transformation into diamond under shock compression. Solid State Physics, 49(11), 2083-2087. Bezruchko, G. S., Razorenov, S. V., Kanel, G. I., & Fortov, V. E. (2006, July). Influence of temperature upon the α→ ω transition in titanium. In AIP Conference Proceedings (Vol. 845, No. 1, pp. 192-195). American Institute of Physics.

Investigation of shock wave compression and destruction of highly rigid brittle materials (glasses, ceramics, sapphires, etc.).

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Savinykh A.S., Mandel K., Razorenov S.V., Kruger L. (2018). The effect of cobalt content on the strength properties of ceramics based on tungsten carbide under dynamic loads. Journal of Technical Physics, 88(3), 368-373. Kanel, G. I., Nellis, W. J., Savinykh, A. S., Razorenov, S. V., Rajendran, A. M. (2009). Response of seven crystallographic orientations of sapphire crystals to shock stresses of 16–86 GPa. Journal of Applied Physics, 106(4). Kanel, G. I., Bogatch, A. A., Razorenov, S. V., Chen, Z. (2002). Transformation of shock compression pulses in glass due to the failure wave phenomena. Journal of applied physics, 92(9), 5045-5052.

Investigation of the dynamic compressive and tensile strength of concrete under flat impact loading

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Savinykh, A. S., Garkushin, G. V., Kanel, G. I., Razorenov, S. V. (2017). Method of measurement of the dynamic strength of concrete under explosive loading. International Journal of Fracture, 209, 109-115. Savinykh, A. S., Garkushin, G. V., Kanel, G. I., & Razorenov, S. V. (2019). Compressive and tensile strength of steel fibrous reinforced concrete under explosive loading. International Journal of Fracture, 215, 129-138.

Impact compressibility study (impact adiabats)

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Mochalova, V., Utkin, A., Nikolaev, D., Savinykh, A., Garkushin, G., Kapasharov, A., & Malkov, G. (2024). Shock response of two epoxy resins at up to 330 GPa pressure. Journal of Applied Physics, 136(4). Cherepanov I.A., Savinykh A.S., Garkushin G.V., Razorenov S.V. (2023) The shear strength of polycarbonate at temperatures of 20-185oc. Journal of Technical Physics, 93(5), 666-672

Publications and patents

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Lab address

Московская область, городской округ Черноголовка, пр. академика Семенова 1
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