The results of theoretical and experimental studies of the anomalously low friction are presented in this paper from the standpoint of thermodynamics of non-equilibrium processes, arising under conditions of elastic interaction of micro-relief of tribosystem elements. The dependences of acoustic emission parameters which correspond to the alteration of energy dissipation mechanism of friction pairs superficial layers are obtained. In addition to molecular and mechanical components of the force of friction at anomalously low wear a wave component appears, and in this case the effect of this component prevails.
Published in | International Journal of Materials Science and Applications (Volume 5, Issue 1) |
DOI | 10.11648/j.ijmsa.20160501.14 |
Page(s) | 23-30 |
Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
Copyright |
Copyright © The Author(s), 2016. Published by Science Publishing Group |
Tribosystem, External Friction, Internal Friction, Kinetic Nanofield, Progressive Wave, Anomalously Low Friction, Acoustic Emission
[1] | Kostetskiy B. I. Surface strength of materials at friction [Text] / B. I. Kostetskiy, I. G. Nosovskiy, A. K. Karaulov, et al. – Kiev: Tekhnika, 1976.–296 p. |
[2] | Kragelskiy I. V. Principles of friction and wear calculations [Text] / I. V. Kragelskiy, M. N. Dobychin, V. S. Kombalov. – Moscow: Mashinostroienie, 1977.–526 p. |
[3] | Stadnichenko V. N. Synergy concept of self-organization in tribologic systems at heat flow control [Text] / V. N. Stadnichenko, O. N. Troshin // Bulletin of “KhPI” Technical University. Collection of research papers: Technologies in machine building. Kharkiv: National Technical University “KhPI” – 2007. – No. 17 – Pp. 49-62. |
[4] | Tribology. Physical principles, mechanics and engineering applications [Text] / I. P. Berkovich, D. G. Gromakovskiy; under the editorship of D. G. Gromakovskiy – Samara: Samara State Technical University, 2000–268 p. |
[5] | Zaporozhets V. V. Mechanism of energy dissipation at metal-ceramic layer friction in technologies of tribotechnical recovery of machine and mechanism elements [Text] / V. V. Zaporozhets, V. N. Stadnichenko, O. M. Troshin // Weapon systems and military machinery. – Kharkiv: 2010. – No. 2(22). – P. 113-118. |
[6] | Troshin O. N. Methodological aspects of non-equilibrium self-organization of tribosystems [Text] / O. N. Troshin, V. N. Stadnichenko, N. G. Stadnichenko, et al. // Weapon inventory and military machinery. – Kharkiv: 2014. – No. 1(37). – P. 233-241. |
[7] | Tribotechnical reference guide, in 3 vol. Vol. 1. Theoretical fundamentals [Text] / Under the general editorship of M. Khebda, A. V. Chichinadze. – Moscow: Mashinostroyenie, 1989. – 400 p. |
[8] | Phenomenon of anomalously low friction in vacuum [Text] / E. A. Dukhovskiy, V. S. Onishchenko, A. N. Ponomariov, A. A. Silin, V. L. Talrose, No. 121 with priority as of September 16, 1969. |
[9] | Stadnichenko V. N. Prediction of tribosystems life-time when they operate in the nanowearing mode, using the method of acoustic emission [Text] // V. N. Stadnichenko, O. N. Troshin, A. V. Piymak et al. // Collection of research papers of Kharkiv University of Air Forces. – Kharkiv: 2010. – No. 4(26). – P. 41-48. |
[10] | Patent 2397101 С1 Russian Federation, МПК В63В 1/36 (2006.01) Apparatus which increases the rate of sailing of a vessel [Text] / Dziuba A. F.; patent holder: A. F. Dziuba. – No. 2009121794/11; appl. 08.06.2009; publ. 20.08.2010, bul. No. 23. |
[11] | Patent 41896 Ukraine, МПК В23Р 6/00, С23С 24/00 С10М 125/30(2009.01) Method of recovery of tribosystem friction surfaces without disassembling [Text] / V. A. Voytov, Stadnichenko V. M., Stadnichenko M. G., Bilyk A. P.; applicant and patent holder Kharkiv National Technical University of Agriculture named after P. Vasylenko – u200901117; appl. 12.02.2009; publ. 10.06.2009, bul. No. 11. |
[12] | Zaporozhets V. V. Mechanism of energy dissipation at metal-ceramic layer friction in technologies of tribotechnical recovery of machine and mechanism elements [Text] V. V. Zaporozhets, V. M. Stadnichenko, O. M. Troshin // Weapon inventory and military machinery. – Kharkiv: 2010. – No. 2(22). – P. 113-118. |
[13] | Veinik A. I. Thermodynamic couple [Text] / A. I. Beinik – Minsk: Nauka i tekhnika, 1973–284 p. |
[14] | Stadnichenko V. M. Methodology of contact interaction processes control on the basis of acoustic-emission effects in tribotechnical systems [Text]: synopsis of Doctor of Engineering Science thesis / V. M. Stadnichenko, National Aviation University. – Kyiv 2014. – 40 p. |
[15] | Gindin I. A. Physics of program hardening [Text] I. A. Gindin, I. M. Nekliudov, – Kiev: Naukova dumka, 1979.–184 p. |
[16] | Vasiliev A. S. Targeted formation of properties of engineering products [Text] / Vasiliev A. S. et al. – Moscow: Mashinostroyenie, 2005. – 384 p. |
[17] | Nikolas G. Challenge knowledge [Text] / G. Nikolas, I. Prigozhin. Trans. From English – Moscow: Mir, 1990–344 p. |
[18] | Zaporozhets V. V. Theoretical and experimental fundamentals of acoustic-emission identification of wear mechanisms and prediction of tribosystems life-time [Text]// V. V. Zaporozhets, V. N. Stadnichenko, O. N. Troshin // Tribology problems. – Khmelnytskiy: 2013. – No. 1(67) – P. 89-98. |
[19] | Stadnichenko V. N. Classification of nanowear types with regard to the dissipation coefficient of external energy supplied to the tribosystem [Text] / V. N. Stadnichenko, O. N. Troshin, N. G. Stadnichenko et al. // Collection of research papers of Kharkiv University of Air Forces. – Kharkiv: 2010. – No. 1(27). – P. 51-61. |
[20] | Baranov A. V. Self-organization of tribosystems under conditions of metals boundary friction [Text] / A. V. Baranov, V. A. Vagner, S. V. Tarasevich et al. // Polzunov bulletin. 2009. – No. 1-2. – P. 155-158. |
[21] | Pogodayev L. I. Structure-energy models of materials behavior (reliability) at impulse loading / Friction, wear, lubrication. – 2013. Volume 15, No. 57 [Electronic resource]. – Access mode: http://www.tribo.ru. |
[22] | Ruban I. V. Automation of processes of laboratory and stand trials in triboengineering [Text] / I. V. Runab, O. N. Troshin, S. V. Smirnov et al. // Weapon systems and military machinery. – Kharkiv: 201-. – No. 3(23). – P. 150-153. |
[23] | Baranov A. V. Prediction method and the way of life time increase for wearable movable conjugation of machine elements [Text]: PhD (Engineering science) thesis / A. V. Baranov; Leningrad Politechnic Institute. – Leningrad: 1988.–175 p. |
[24] | Poliakov S. A. Theoretical analysis of principal mechanisms of tribosystems evolution at selective transition [Text] / S. A. Poliakov // Service life of machine friction members. – Moscow: 1988. Num. 3.–P. 3-27. |
[25] | Yezhov Yu. Ye. About critical rate of loading for heterogeneous material under erosion conditions / Friction, wear, lubrication. // Yu. Ye. Yezhov, L. I. Pogodayev, Yu. T. Borshchevskiy. Volume 15, No. 57 [Electronic resource]. – Access mode: http://www.tribo.ru. |
[26] | Goloskokov Ye. G. Elastic and acoustic problems of dynamics of three-layer constructions [Text] / Ye. G. Goloskokov, S. N. Beshenkov. – Kharkov: Vyshcha shkola, 1980.–120 p. |
[27] | "Introduction to Superstring Theory", E. Kiritsis, Leuven Univ. Press, 1998 (Leuven Notes in Mathematical and Theoretical Physics, Vol. 9). |
APA Style
V. M. Stadnichenko, O. M. Troshin. (2016). Gray’s Paradox and Wave Solutions in Explaining Anomalously Low Friction and Wear in Tribology. International Journal of Materials Science and Applications, 5(1), 23-30. https://doi.org/10.11648/j.ijmsa.20160501.14
ACS Style
V. M. Stadnichenko; O. M. Troshin. Gray’s Paradox and Wave Solutions in Explaining Anomalously Low Friction and Wear in Tribology. Int. J. Mater. Sci. Appl. 2016, 5(1), 23-30. doi: 10.11648/j.ijmsa.20160501.14
AMA Style
V. M. Stadnichenko, O. M. Troshin. Gray’s Paradox and Wave Solutions in Explaining Anomalously Low Friction and Wear in Tribology. Int J Mater Sci Appl. 2016;5(1):23-30. doi: 10.11648/j.ijmsa.20160501.14
@article{10.11648/j.ijmsa.20160501.14, author = {V. M. Stadnichenko and O. M. Troshin}, title = {Gray’s Paradox and Wave Solutions in Explaining Anomalously Low Friction and Wear in Tribology}, journal = {International Journal of Materials Science and Applications}, volume = {5}, number = {1}, pages = {23-30}, doi = {10.11648/j.ijmsa.20160501.14}, url = {https://doi.org/10.11648/j.ijmsa.20160501.14}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijmsa.20160501.14}, abstract = {The results of theoretical and experimental studies of the anomalously low friction are presented in this paper from the standpoint of thermodynamics of non-equilibrium processes, arising under conditions of elastic interaction of micro-relief of tribosystem elements. The dependences of acoustic emission parameters which correspond to the alteration of energy dissipation mechanism of friction pairs superficial layers are obtained. In addition to molecular and mechanical components of the force of friction at anomalously low wear a wave component appears, and in this case the effect of this component prevails.}, year = {2016} }
TY - JOUR T1 - Gray’s Paradox and Wave Solutions in Explaining Anomalously Low Friction and Wear in Tribology AU - V. M. Stadnichenko AU - O. M. Troshin Y1 - 2016/02/17 PY - 2016 N1 - https://doi.org/10.11648/j.ijmsa.20160501.14 DO - 10.11648/j.ijmsa.20160501.14 T2 - International Journal of Materials Science and Applications JF - International Journal of Materials Science and Applications JO - International Journal of Materials Science and Applications SP - 23 EP - 30 PB - Science Publishing Group SN - 2327-2643 UR - https://doi.org/10.11648/j.ijmsa.20160501.14 AB - The results of theoretical and experimental studies of the anomalously low friction are presented in this paper from the standpoint of thermodynamics of non-equilibrium processes, arising under conditions of elastic interaction of micro-relief of tribosystem elements. The dependences of acoustic emission parameters which correspond to the alteration of energy dissipation mechanism of friction pairs superficial layers are obtained. In addition to molecular and mechanical components of the force of friction at anomalously low wear a wave component appears, and in this case the effect of this component prevails. VL - 5 IS - 1 ER -