Submit an Article
Become a reviewer
RU
Vol 235
Pages:
55-59
Download volume:
RUS ENG
Article

The study of the effect of temperature on the ability of metals to accumulate energy during their plastic deformation

Authors:
V. F. Bezyazychnyi1
M. Szczerek2
M. L. Pervov3
M. V. Timofeev4
M. A. Prokofiev5
About authors
  • 1 — Ph.D., Dr.Sci. Head of the departmen Rybinsk State Aviation Technical University named after P.A.Solovyov
  • 2 — Ph.D., Dr.Sci. Deputy director for science and research Institute for Sustainable Technologies – National Research Institute
  • 3 — Ph.D., Dr.Sci. professor Rybinsk State Aviation Technical University named after P.A.Solovyov
  • 4 — Ph.D. associate professor Rybinsk State Aviation Technical University named after P.A.Solovyov ▪ Orcid
  • 5 — Ph.D. associate professor Rybinsk State Aviation Technical University named after P.A.Solovyov
Date submitted:
2018-08-29
Date accepted:
2018-10-25
Date published:
2019-02-22

Abstract

The subject of research is the surface layer of highly loaded parts, friction units of mining machines and equipment. The article presents a theoretical analysis of the factors that determine the ability of the material of the surface layer of parts to accumulate energy in the process of plastic deformation. It is suggested that the activation character of the accumulation of energy by metals. Based on the theory of diffusion, it was shown that the mobility of atoms, as well as the accumulated energy, are determined by the ratio of the test temperature to the melting temperature.

Область исследования:
(Archived) Electromechanics and mechanical engineering
Keywords:
machine parts surface layer accumulated energy temperature degree of deformation tensile strength
10.31897/pmi.2019.1.55
Go to volume 235
Access statistics
Abstract Views
1576
Full-Text Views
345
Cited
Scopus:
20
Crossref:
15
Cited By
1. Evaluation of the depth and degree of work hardening during rough turning of high-manganese steel. Chernye Metally. 2024, Vol. 2024, P. 72-76. DOI: 10.17580/chm.2024.09.11 [Scopus]
2. Calculation and experimental studies of the residual resource of long-term strength of alloyed heat-resistant steels. Chernye Metally. 2024, Vol. 2024, P. 44-49. DOI: 10.17580/chm.2024.09.07 [Scopus]
3. Thermally Activated Crack Growth and Fracture Toughness Evaluation of Pipeline Steels Using Acoustic Emission. Metals. July 2023, Vol. 13, DOI: 10.3390/met13071272 [Scopus] (cited: 13)
4. Calculating the Surface Layer Thickness and Surface Energy of Aircraft Materials. Inventions. June 2023, Vol. 8, DOI: 10.3390/inventions8030066 [Scopus]
5. Magnetic Abrasive Machining of Hard Workpieces by New Diffusion-Alloyed Materials. Russian Engineering Research. February 2023, Vol. 43, P. 190-194. DOI: 10.3103/S1068798X23030243 [Scopus] (cited: 13)
6. Improving the Surface Quality of Titanium-Alloy Components in Machining. Russian Engineering Research. February 2023, Vol. 43, P. 195-198. DOI: 10.3103/S1068798X23030255 [Scopus] (cited: 13)
7. ENSURING SURFACE QUALITY IN ALMN ALLOY ITEMS DURING HIGH-FREQUENCY WAVE IMPACT BORING. Tsvetnye Metally. 2023, Vol. 2023, P. 90-95. DOI: 10.17580/tsm.2023.04.12 [Scopus] (cited: 18)
8. The influence of the quality of surface preparation of pipes for heating networks on their corrosion resistance during operation in underground conditions. Chernye Metally. 2023, Vol. 2023, P. 97-102. DOI: 10.17580/chm.2023.11.15 [Scopus] (cited: 10)
9. QUALITY CONTROL OF COMPLEX CONTOUR SURFACES IN ALUMINIUM ALLOY ITEMS DURING MAGNETIC ABRASIVE FINISHING. Tsvetnye Metally. 2023, Vol. 2023, P. 96-102. DOI: 10.17580/tsm.2023.04.13 [Scopus] (cited: 17)
10. Improving the quality of hole processing in welded products made of dissimilar materials with a new boring tool. International Journal of Advanced Manufacturing Technology. January 2022, Vol. 118, P. 1027-1042. DOI: 10.1007/s00170-021-07975-7 [Scopus] (cited: 17)
11. Technological assurance of the quality of processing of products from aluminum alloys with a complex geometric shape using magnetic abrasive processing. E3s Web of Conferences. 24 November 2021, Vol. 326, DOI: 10.1051/e3sconf/202132600033 [Scopus] (cited: 6)
12. Accessible battery model with aging dependency. Energies. 2 June 2021, Vol. 14, DOI: 10.3390/en14123493 [Scopus] (cited: 18)
13. Influence of the microstructure on the damping properties of stress-strain tool systems in the processing of welded structures from dissimilar steels. Materials Science Forum. 2021, Vol. 1022 MSF, P. 7-16. DOI: 10.4028/www.scientific.net/MSF.1022.7 [Scopus] (cited: 13)
14. Influence of the microstructure of cutting ceramics on the efficiency of the machining process. Materials Science Forum. 2021, Vol. 1040 MSF, P. 21-27. DOI: 10.4028/www.scientific.net/MSF.1040.21 [Scopus] (cited: 5)
15. Preliminary local thermal impact as a surface quality assurance factor. Materials Science Forum. 2021, Vol. 1031 MSF, P. 125-131. DOI: 10.4028/www.scientific.net/MSF.1031.125 [Scopus] (cited: 7)
16. Reduction of defects in the process of formation of precision surfaces of titanium alloy products. Journal of Physics Conference Series. 10 November 2020, Vol. 1661, DOI: 10.1088/1742-6596/1661/1/012102 [Scopus] (cited: 1)
17. Intelligence Systems for Quality Assessment of Threaded Surfaces and Flaw Monitoring Based on Digital Light Field Recording. Russian Journal of Nondestructive Testing. November 2020, Vol. 56, P. 915-926. DOI: 10.1134/S1061830920110054 [Scopus] (cited: 6)
18. Improvement of magnetic-abrasive finishing of nonuniform products made of high-speed steel in digital conditions. Key Engineering Materials. 2020, Vol. 836 KEM, P. 71-77. DOI: 10.4028/www.scientific.net/KEM.836.71 [Scopus] (cited: 7)
19. Treatment of titanium alloys based on preliminary plastic impact. Key Engineering Materials. 2020, Vol. 836 KEM, P. 63-70. DOI: 10.4028/www.scientific.net/KEM.836.63 [Scopus] (cited: 4)
20. Cutting tool for turning large workpieces. Journal of Physics Conference Series. 5 December 2019, Vol. 1399, DOI: 10.1088/1742-6596/1399/4/044082 [Scopus] (cited: 7)
Article Menu
The study of the effect of temperature on the ability of metals to accumulate energy during their plastic deformation

Similar articles

Study of bearing units wear resistance of engines career dump trucks, working in fretting corrosion conditions
2019 Ju. Olt, V. V. Maksarov, V. A. Krasnyy
Comparative analysis of zincand tin oxidation with acids at room temperatures
2019 S. D. Pozhidaeva, L. S. Ageeva, A. M. Ivanov
Mathematical modeling of rock crushing and multiphase flow of drilling fluid in well drilling
2019 B. S. Grigoriev, A. A. Eliseev, T. A. Pogarskaya, E. E. Toropov
Justification of the technological parameters choice for well drilling by rotary steerable systems
2019 Vladimir S. Litvinenko, M. V. Dvoinikov
Creation of temperature inhomogenities with the use of Peltier element for the mass-exchange processes intensification of the oil and gas industry
2019 V. G. Afanasenko, Yu. L. Yunusova
Tourmaline as an ondicator of tin occurrences of cassiterite-quartz and cassiterite-silicate formations (a case study of the Verkhneurmiysky ore cluster, Far East)
2019 V. I. Alekseev, Yu. B. Marin