Publication detail

Environmental Protection by Self-organisation of Tribosystems with Self-lubricating Materials in Dry Friction. Part II: Iinvestigations at Different Dry Sliding Rates

M. KANDEVA, V. BALABANOV, E. ZADOROZHNAYA, ZH. KALITCHIN, P. SVOBODA, I. LEVANOV.

Original Title

Environmental Protection by Self-organisation of Tribosystems with Self-lubricating Materials in Dry Friction. Part II: Iinvestigations at Different Dry Sliding Rates

Type

journal article in Web of Science

Language

English

Original Abstract

The paper studies the ecological aspects of self-organisation effects in tribosystems, containing self-lubricating composite materials IPM 304 and IPM 305 in copper matrix in atmospheric medium. It has been found out that in stationary regime of dry friction in the atmosphere at small sliding velocity v = 0.22 m/s and loading Р = 12.5 N (pa = 1 MPa), the wear-resistance of the samples of self-lubricating antifriction materials is higher with two orders of magnitude in comparison with the wear-resistance of tin bronze BrО1F1 and it depends on the friction path. It has been proven that in atmosphere under conditions of dry friction at 4 times lower sliding velocity there occur processes of selective transferring and on the surface of the counterbody of steel Р6М5 a transfering contact layer is being formed and it is maintained (dissipative structure) having thickness 8–10 μm.

Keywords

friction, self-lubricating materials, self-organisation, environmental protection

Authors

M. KANDEVA, V. BALABANOV, E. ZADOROZHNAYA, ZH. KALITCHIN, P. SVOBODA, I. LEVANOV.

Released

18. 12. 2017

Publisher

SCIBULCOM LTD

Location

BULGARIA

ISBN

1311-5065

Periodical

J ENVIRON PROT ECOL

Year of study

18

Number

4

State

Republic of Bulgaria

Pages from

1581

Pages to

1592

Pages count

12

URL

BibTex

@article{BUT146151,
  author="Petr {Svoboda}",
  title="Environmental Protection by Self-organisation of Tribosystems with Self-lubricating Materials in Dry Friction. Part II: Iinvestigations at Different Dry Sliding Rates",
  journal="J ENVIRON PROT ECOL",
  year="2017",
  volume="18",
  number="4",
  pages="1581--1592",
  issn="1311-5065",
  url="https://docs.google.com/a/jepe-journal.info/viewer?a=v&pid=sites&srcid=amVwZS1qb3VybmFsLmluZm98amVwZS1qb3VybmFsfGd4OjRlMjI2ZDg4M2EyZTNhNDE"
}