Tribological aspects in nanostructuring burnishing of structural steels / Kuznetsov V. P.,Makarov A. V.,Psakhie S. G.,Savrai R. A.,Malygina I. Yu.,Davydova N. A. // PHYSICAL MESOMECHANICS. - 2014. - V. 17, l. 4. - P. 250-264.

ISSN/EISSN:

1029-9599 / 1990-5424

Type:

Article

Abstract:

The paper studies tribological aspects of nanostructuring burnishing of steels. The efficiency of the process in improving the tribological properties of steels is assessed as regards the choice of an indenter material and lubricant-coolant reasoning from the friction coefficient at the ``indenter-treated part{''} contact and from the absence of adhesive bond and fatigue microcracks. It is shown that synthetic diamond and dense boron nitride are promising indenter materials for nanostructuring burnishing of corrosion-resistant 20X13 steel and cement 20X steel. It is demonstrated that nanostructuring burnishing increases the wear resistance of structural steels under abrasive action and sliding friction in different media (lubricant, water, air, and argon) due to suppressed processes of microcutting, plastic edging, fatigue and oxidation wear, and adhesive bonding.

Author keywords:

nanostructuring burnishing; surface layer; friction coefficient; wear resistance; wear mechanisms WEAR-RESISTANCE; SURFACE-LAYER; CARBON STEEL; FRICTION; NANOCRYSTALLIZATION; BEHAVIORS; WORK

DOI:

10.1134/S102995991404002X

Web of Science ID:

ISI:000345397500002

Соавторы в МНС:

Другие поля

Поле	Значение
Month	OCT
Publisher	SPRINGER
Address	233 SPRING ST, NEW YORK, NY 10013 USA
Language	English
EISSN	1990-5424
Keywords-Plus	WEAR-RESISTANCE; SURFACE-LAYER; CARBON STEEL; FRICTION; NANOCRYSTALLIZATION; BEHAVIORS; WORK
Research-Areas	Mechanics; Materials Science
Web-of-Science-Categories	Mechanics; Materials Science, Characterization \& Testing
Author-Email	wpkuzn@mail.ru
ResearcherID-Numbers	Malygina, Irina/D-6043-2016 Savrai, Roman/D-5571-2016 Psakhie, Sergey/F-1469-2014 Makarov, Aleksey/D-5663-2016
ORCID-Numbers	Savrai, Roman/0000-0001-9873-3621 Makarov, Aleksey/0000-0002-2228-0643 Kuznetsov, Viktor/0000-0001-8949-6345
Funding-Acknowledgement	Russian Academy of Sciences {[}12-T-1-1010, 12-P-11027]; RFBR {[}11-08-01025-a]; Government Research and Development {[}01201461774]
Funding-Text	This work is partially supported by the Basic Research Program of the Ural Branch of the Russian Academy of Sciences (project no. 12-T-1-1010 and 12-P-11027), RFBR grant no. 11-08-01025-a, and Government Research and Development Task no. 01201461774.
Number-of-Cited-References	33
Usage-Count-Since-2013	9
Journal-ISO	Phys. Mesomech.
Doc-Delivery-Number	AU1RI