수-윤활용 플라스틱 베어링 개발에 관한 연구

Other Titles
Development of Water-lubricated Plastic Bearings
Authors
공호성한흥구
Issue Date
2023-12
Publisher
한국트라이볼로지학회
Citation
Tribology and Lubricants, v.39, no.6, pp.235 - 243
Abstract
This paper presents the fabrication process of water-lubricated plastic bearings. Plastic bearings require good mechanical properties and tribological properties as well as elasticity and shock resistance, especially when lubricated in dirty water conditions. In this study, sleeve-type plastic bearings are produced by winding a prepreg sheet, which primary contains nitrile rubber (NBR)-modified epoxy, self-lubricating fillers, and various types of lattice-structured reinforcing fibers such as carbon, Aramid, and polyethylene terephthalate. A thermosetting epoxy is chemically modified with NBR to impart elasticity and low-friction characteristics in water conditions. Experimental investigations are conducted to examine the mechanical and tribological characteristics of the developed bearing materials, and the results are compared with the characteristics of a commercial plastic bearing (Thordon SXL), well known as a water-lubricated bearing. A Thordon bearing (mainly composed of polyurethane) exhibits an extremely low load-bearing capacity and is thus only suitable for medium loading (1~10MPa). The tribological characteristics of the test materials are evaluated through Falex block-on-ring (LFW-1) friction and wear tests. The results indicate that friction exhibited by the carbon-fiber-reinforced NBR-10wt.%-modified epoxy composite material, incorporated with the addition of 20wt.% UHMWPE and 6wt.% paraffin wax, is lower than that of the Thorden bearings, whereas its wear resistance surpass that of Thorden ones. Because of these features, the load carrying capacity of the fabricated composite (>10MPa) is higher than that of the Thorden bearings. These results confirm the applicability of water-lubricated plastic bearing materials developed in this study.
Keywords
Plastic bearing; Water-lubricated; Sliding friction; Composite materials; NBR-modified epoxy; 플라스틱 베어링; 물-윤활; 미끄럼 마찰; 복합재료; NBR-변성 에폭시
ISSN
2713-8011
URI
https://pubs.kist.re.kr/handle/201004/148449
DOI
10.9725/kts.2023.39.6.235
Appears in Collections:
KIST Article > 2023
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