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Prikladnaya Mekhanika i Tekhnicheskaya Fizika, 2001, Volume 42, Issue 2, Pages 194–198 (Mi pmtf2757)  
This article is cited in 95 scientific papers (total in 95 papers)

Distortion of the wave profiles in an elastoplastic body upon spalling

G. I. Kanel'

Institute of Thermal Physics of Extremal States, Joint Institute of High Temperatures, Russian Academy of Sciences, Moscow, 127412
Full-text PDF (202 kB) Citations (95)
Abstract: The distortion of wave profiles in measuring the spall strength of elastoplastic materials is analyzed. An expression for the velocity of an elastic compression wave that overtakes a plastic rarefaction wave is obtained. It is shown that, depending on the ratio between the stress gradients in the plastic rarefaction wave and the overtaking compression wave, the front velocity of the compressive wave varies in the limits between the velocities of the longitudinal perturbations and the perturbations of volume expansion or compression.
Received: 11.05.1999
English version:
Journal of Applied Mechanics and Technical Physics, 2001, Volume 42, Issue 2, Pages 358–362
DOI: https://doi.org/10.1023/A:1018804709273
Bibliographic databases:
Document Type: Article
UDC: 532.593
Language: Russian
Citation: G. I. Kanel', “Distortion of the wave profiles in an elastoplastic body upon spalling”, Prikl. Mekh. Tekh. Fiz., 42:2 (2001), 194–198; J. Appl. Mech. Tech. Phys., 42:2 (2001), 358–362
Citation in format AMSBIB
\Bibitem{Kan01}
\by G.~I.~Kanel'
\paper Distortion of the wave profiles in an elastoplastic body upon spalling
\jour Prikl. Mekh. Tekh. Fiz.
\yr 2001
\vol 42
\issue 2
\pages 194--198
\mathnet{http://mi.mathnet.ru/pmtf2757}
\elib{https://elibrary.ru/item.asp?id=17262052}
\transl
\jour J. Appl. Mech. Tech. Phys.
\yr 2001
\vol 42
\issue 2
\pages 358--362
\crossref{https://doi.org/10.1023/A:1018804709273}
Linking options:
  • https://www.mathnet.ru/eng/pmtf2757
  • https://www.mathnet.ru/eng/pmtf/v42/i2/p194
    • This publication is cited in the following 95 articles:
    1. Paul E. Specht, Timothy A. Elmslie, Sakun Duwal, Brian Fuchs, Nathan Heckman, Sharlotte Kramer, “Dynamic response of 17-4 stainless steel as a function of manufacturing method and heat treatment”, Journal of Applied Physics, 137:16 (2025)  crossref
    2. V. Mochalova, A. Utkin, A. Savinykh, G. Garkushin, D. Nikolaev, A. Savchenko, A. Kapasharov, G. Malkov, “Spall strength measurements of epoxy resin with varying polyphenylene sulfone content cured at $160\,^{\circ }\hbox {C}$ and $200\,^{\circ }\hbox {C}$ temperature”, Shock Waves, 2025  crossref
    3. Daniel Eakins, David Chapman, Dynamic Behavior of Materials, 2024, 133  crossref
    4. Paul E. Specht, Timothy Ruggles, John Miers, David Moore, Nathan Brown, Sakun Duwal, Brittany Branch, “Dynamic response of additively manufactured Ti–5Al–5V–5Mo–3Cr as a function of heat treatment”, Journal of Applied Physics, 135:5 (2024)  crossref
    5. Nathan P. Brown, Timothy J. Ruggles, Christopher R. Johnson, Nichole R. Valdez, Mark A. Rodriguez, Paul E. Specht, “Shock compression of single-crystal stainless steel”, Acta Materialia, 275 (2024), 120021  crossref
    6. A. S. Savinykh, G. V. Garkushin, S. V. Razorenov, “The Effect of Temperature on the Hugoniot Elastic Limit and the Spall Strength of a Lead–Bismuth Alloy at the Pressure of Shock Compression up to 2.4 GPa”, Tech. Phys., 69:5 (2024), 1341  crossref
    7. G. I. Kanel, G. V. Garkushin, A. S. Savinykh, S. V. Razorenov, S. A. Atroshenko, “Investigation of the Rate Dependences of the Stress of Plastic Flow and Fracture of Mn2-Si Steel at Normal and Elevated Temperatures”, Tech. Phys., 69:4 (2024), 890  crossref
    8. Yuan Wang, Xuhai Li, Xiaotian Yao, Qiyue Hou, Zhiguo Li, Fengchao Wu, Yuying Yu, Xuemei Li, Jianbo Hu, “Near-full density enabled excellent dynamic mechanical behavior in additively manufactured 316L stainless steels”, Materials & Design, 245 (2024), 113276  crossref
    9. Chad A. McCoy, Brittany A. Branch, 23RD BIENNIAL CONFERENCE OF THE APS TOPICAL GROUP ON SHOCK COMPRESSION OF CONDENSED MATTER, 3066, 23RD BIENNIAL CONFERENCE OF THE APS TOPICAL GROUP ON SHOCK COMPRESSION OF CONDENSED MATTER, 2024, 610005  crossref
    10. Chad A. McCoy, Daniel R. Kammler, Christopher R. Johnson, 23RD BIENNIAL CONFERENCE OF THE APS TOPICAL GROUP ON SHOCK COMPRESSION OF CONDENSED MATTER, 3066, 23RD BIENNIAL CONFERENCE OF THE APS TOPICAL GROUP ON SHOCK COMPRESSION OF CONDENSED MATTER, 2024, 610003  crossref
    11. P. S. Komarov, S. A. Romashevskii, E. V. Struleva, S. I. Ashitkov, “Picosecond Dynamics and Morphology of the Spallation of a Nanolayer in a Vanadium Film under Shock-Wave Loading by Subpicosecond Laser Pulses”, High Temp, 62:5 (2024), 616  crossref
    12. E. V. Struleva, P. S. Komarov, S. A. Evlashin, S. I. Ashitkov, “High-Speed Cobalt Film Fracture under the Action of Loads Created by a Picosecond Laser Pulse”, High Temp, 61:4 (2023), 496  crossref
    13. Fang Wang, Jin Wang, Zhongpeng Qi, Xianye Wu, Xiangguo Zeng, Xin Yang, “Evaluation of copper spall response using Mie-Grüneisen equation-of-state parameters determined from molecular dynamics”, Computational Materials Science, 216 (2023), 111883  crossref
    14. Brianna MacNider, David Jones, Jesse Callanan, Matt Beason, George T. Gray, Dana M. Dattelbaum, Nicholas Boechler, Saryu Fensin, “In situ measurement of damage evolution in shocked magnesium as a function of microstructure”, Sci. Adv., 9:45 (2023)  crossref
    15. V.K. Euser, D.R. Jones, D.T. Martinez, J.A. Valdez, C.P. Trujillo, C.M. Cady, S.J. Fensin, “The effect of microstructure on the dynamic shock response of 1045 steel”, Acta Materialia, 250 (2023), 118874  crossref
    16. S. V. Razorenov, G. V. Garkushin, A. S. Savinykh, O. G. Klimova-Korsmik, “Spall Strength of 09CrNi2MoCu Steel Manufactured by Hot Rolling and Direct Laser Deposition in the Submicrosecond Loading Range”, Phys Mesomech, 26:1 (2023), 48  crossref
    17. Paul E. Specht, C. Scott Alexander, William Reinhart, SHOCK COMPRESSION OF CONDENSED MATTER - 2022: Proceedings of the Conference of the American Physical Society Topical Group on Shock Compression of Condensed Matter, 2844, SHOCK COMPRESSION OF CONDENSED MATTER - 2022: Proceedings of the Conference of the American Physical Society Topical Group on Shock Compression of Condensed Matter, 2023, 420007  crossref
    18. K. Lamb, K. Koube, J. Kacher, T. Sloop, N. Thadhani, S.S. Babu, “Anisotropic spall failure of additively manufactured 316L stainless steel”, Additive Manufacturing, 66 (2023), 103464  crossref
    19. Sergey Ashitkov, Pavel Komarov, Sergey Romashevskiy, Evgenia Struleva, Stanislav Evlashin, “Shock compression of magnesium alloy by ultrashort loads driven by sub-picosecond laser pulses”, Journal of Applied Physics, 132:17 (2022)  crossref
    20. V. K. Euser, D. T. Martinez, J. A. Valdez, C. P. Trujillo, C. M. Cady, D. R. Jones, S. J. Fensin, “The influence of pearlite fraction on the shock properties of ferrite–pearlite steel microstructures: Insight into the effect of second-phase particles”, Journal of Applied Physics, 131:11 (2022)  crossref
    Citing articles in Google Scholar: Russian citations, English citations
    Related articles in Google Scholar: Russian articles, English articles
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