On the Thermally Activated Changes in Autowave Parameters of Localized Plastic Flow

In this work, plastic deformation localization regularities in pure aluminum polycrystals are studied using speckle photography technique. It is shown that at the parabolic work hardening stages in the temperature range of 170 < T < 350 K, the temperature effect upon the emergence of a station...

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Published in	Russian physics journal Vol. 67; no. 8; pp. 1180 - 1185
Main Authors	Zuev, L. B., Barannikova, S. A., Kolosov, S. V., Iskhakova, P. V.
Format	Journal Article
Language	English
Published	Cham Springer International Publishing 01.08.2024 Springer Springer Nature B.V
Subjects	Condensed Matter Physics Deformation effects Hadrons Heavy Ions Lasers Mathematical and Computational Physics Nuclear Physics Optical Devices Optics Photonics Physics Physics and Astronomy Plastic deformation Plastic flow Polycrystals Temperature effects Theoretical Work hardening metals macroscopic strain localization Plastic deformation autowaves speckle photography
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Abstract	In this work, plastic deformation localization regularities in pure aluminum polycrystals are studied using speckle photography technique. It is shown that at the parabolic work hardening stages in the temperature range of 170 < T < 350 K, the temperature effect upon the emergence of a stationary dissipative structure is determined by the change in the autowave length of localized plasticity at the macroscale level and the cell size of the dislocation substructure at the microscale level.
AbstractList	In this work, plastic deformation localization regularities in pure aluminum polycrystals are studied using speckle photography technique. It is shown that at the parabolic work hardening stages in the temperature range of 170 < T < 350 K, the temperature effect upon the emergence of a stationary dissipative structure is determined by the change in the autowave length of localized plasticity at the macroscale level and the cell size of the dislocation substructure at the microscale level. In this work, plastic deformation localization regularities in pure aluminum polycrystals are studied using speckle photography technique. It is shown that at the parabolic work hardening stages in the temperature range of 170 < T < 350 K, the temperature effect upon the emergence of a stationary dissipative structure is determined by the change in the autowave length of localized plasticity at the macroscale level and the cell size of the dislocation substructure at the microscale level. Keywords: Plastic deformation, metals, speckle photography, macroscopic strain localization, autowaves.
Audience	Academic
Author	Kolosov, S. V. Iskhakova, P. V. Zuev, L. B. Barannikova, S. A.
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References	L. B. Zuev, S. A. Barannikova, and S. V. Kolosov, Tech. Phys., 67, 1575–1579 (2022); https://doi.org/10.21883/TP.2022.12.55192.170-22. ZbibHMde la RubiaTDInt. J. Plast.2002181133116310.1016/S0749-6419(01)00044-4 A. Asharia, A. Beaudoin, and R. Miller, Math. Mech. Sol., 13, 292–315 (2008); https://doi.org/10.1177/1081286507086903. SeegerAin: Dislocations and Mechanical Properties of Crystals1957New YorkJohn Wiley and Sons Inc. G. A. Malygin, Phys.-Usp., 169, 979–1010 (1999); https://doi.org/10.3367/UFNr.0169.199909c.0979. McDonaldRJEfstathiouCKurathPJ. Eng. Mater. Tech.200913169270310.1115/1.3120410 LubardaVAElastoplasticity Theory2001LondonCRS Press10.1201/9781420040784 G. F. Sarafanov, Phys. Sol. State, 50, 1868–1874 (2008); https://doi.org/10.1134/S1063783408100144. FressengeasCBeaudoinAEntemeyerDPhys. Rev. B200979014108102009PhRvB..79a4108F10.1103/PhysRevB.79.014108 ZuevLBKhonYuAGorbatenkoVVPhysics of Inhomogeneous Plastic Flow2024MoscowFizmatlit[in Russian] PlekhovOATech. Phys.20115630130410.1134/S106378421102023X KocksUFMekingHProg. Mater. Sci.20034817127310.1016/S0079-6425(02)00003-8 V. E. Nazarov, Phys. Sol. State,58, 1719–1728 (2016); https://doi.org/10.1134/S1063783416090249. PorubovAVLocalization of Nonlinear Deformation Waves2009MoscowFizmatlit[in Russian] FriedelJDislocations [Russian translation]1967MoscowMir HullDBaconDJIntroduction in Dislocations2011OxfordElsevier10.1016/S1369-7021(11)70217-6 TretyakovaTVWildemanVESpatiotemporal Heterogeneity of Processes of Inelastic Deformation of Metals2016MoscowFizmatlit[in Russian] D Hull (3231_CR3) 2011 AV Porubov (3231_CR10) 2009 3231_CR11 RJ McDonald (3231_CR7) 2009; 131 3231_CR17 3231_CR14 LB Zuev (3231_CR5) 2024 TV Tretyakova (3231_CR9) 2016 C Fressengeas (3231_CR8) 2009; 79 HM Zbib (3231_CR13) 2002; 18 VA Lubarda (3231_CR1) 2001 3231_CR4 OA Plekhov (3231_CR12) 2011; 56 3231_CR6 A Seeger (3231_CR15) 1957 J Friedel (3231_CR2) 1967 UF Kocks (3231_CR16) 2003; 48
References_xml	– reference: ZbibHMde la RubiaTDInt. J. Plast.2002181133116310.1016/S0749-6419(01)00044-4 – reference: SeegerAin: Dislocations and Mechanical Properties of Crystals1957New YorkJohn Wiley and Sons Inc. – reference: V. E. Nazarov, Phys. Sol. State,58, 1719–1728 (2016); https://doi.org/10.1134/S1063783416090249. – reference: HullDBaconDJIntroduction in Dislocations2011OxfordElsevier10.1016/S1369-7021(11)70217-6 – reference: KocksUFMekingHProg. Mater. Sci.20034817127310.1016/S0079-6425(02)00003-8 – reference: FriedelJDislocations [Russian translation]1967MoscowMir – reference: LubardaVAElastoplasticity Theory2001LondonCRS Press10.1201/9781420040784 – reference: TretyakovaTVWildemanVESpatiotemporal Heterogeneity of Processes of Inelastic Deformation of Metals2016MoscowFizmatlit[in Russian] – reference: G. A. Malygin, Phys.-Usp., 169, 979–1010 (1999); https://doi.org/10.3367/UFNr.0169.199909c.0979. – reference: A. Asharia, A. Beaudoin, and R. Miller, Math. Mech. Sol., 13, 292–315 (2008); https://doi.org/10.1177/1081286507086903. – reference: L. B. Zuev, S. A. Barannikova, and S. V. Kolosov, Tech. Phys., 67, 1575–1579 (2022); https://doi.org/10.21883/TP.2022.12.55192.170-22. – reference: FressengeasCBeaudoinAEntemeyerDPhys. Rev. B200979014108102009PhRvB..79a4108F10.1103/PhysRevB.79.014108 – reference: ZuevLBKhonYuAGorbatenkoVVPhysics of Inhomogeneous Plastic Flow2024MoscowFizmatlit[in Russian] – reference: PlekhovOATech. Phys.20115630130410.1134/S106378421102023X – reference: PorubovAVLocalization of Nonlinear Deformation Waves2009MoscowFizmatlit[in Russian] – reference: G. F. Sarafanov, Phys. Sol. State, 50, 1868–1874 (2008); https://doi.org/10.1134/S1063783408100144. – reference: McDonaldRJEfstathiouCKurathPJ. Eng. Mater. Tech.200913169270310.1115/1.3120410 – ident: 3231_CR14 doi: 10.3367/UFNr.0169.199909c.0979 – volume: 131 start-page: 692 year: 2009 ident: 3231_CR7 publication-title: J. Eng. Mater. Tech. doi: 10.1115/1.3120410 – volume: 18 start-page: 1133 year: 2002 ident: 3231_CR13 publication-title: Int. J. Plast. doi: 10.1016/S0749-6419(01)00044-4 – volume-title: Physics of Inhomogeneous Plastic Flow year: 2024 ident: 3231_CR5 – volume-title: Dislocations [Russian translation] year: 1967 ident: 3231_CR2 – volume-title: Introduction in Dislocations year: 2011 ident: 3231_CR3 doi: 10.1016/S1369-7021(11)70217-6 – ident: 3231_CR4 doi: 10.1134/S1063783408100144 – ident: 3231_CR11 doi: 10.1134/S1063783416090249 – ident: 3231_CR17 doi: 10.21883/TP.2022.12.55192.170-22 – volume-title: Localization of Nonlinear Deformation Waves year: 2009 ident: 3231_CR10 – volume: 48 start-page: 171 year: 2003 ident: 3231_CR16 publication-title: Prog. Mater. Sci. doi: 10.1016/S0079-6425(02)00003-8 – volume-title: Spatiotemporal Heterogeneity of Processes of Inelastic Deformation of Metals year: 2016 ident: 3231_CR9 – volume-title: in: Dislocations and Mechanical Properties of Crystals year: 1957 ident: 3231_CR15 – ident: 3231_CR6 doi: 10.1177/1081286507086903 – volume: 79 start-page: 014108 year: 2009 ident: 3231_CR8 publication-title: Phys. Rev. B doi: 10.1103/PhysRevB.79.014108 – volume-title: Elastoplasticity Theory year: 2001 ident: 3231_CR1 doi: 10.1201/9781420040784 – volume: 56 start-page: 301 year: 2011 ident: 3231_CR12 publication-title: Tech. Phys. doi: 10.1134/S106378421102023X
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Snippet	In this work, plastic deformation localization regularities in pure aluminum polycrystals are studied using speckle photography technique. It is shown that at...
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SubjectTerms	Condensed Matter Physics Deformation effects Hadrons Heavy Ions Lasers Mathematical and Computational Physics Nuclear Physics Optical Devices Optics Photonics Physics Physics and Astronomy Plastic deformation Plastic flow Polycrystals Temperature effects Theoretical Work hardening
Title	On the Thermally Activated Changes in Autowave Parameters of Localized Plastic Flow
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