Polymer Composites Filled with RB Ceramics Particles as Low Friction and High Wear Resistant Filler
In this study, five kinds of thermoplastic resin/RB ceramics composite materials were developed, and their tribological properties were investigated under dry and oil lubricated conditions. RB ceramics particles with mean diameter of 150 μm were compounded with five kinds of thermoplastic res...
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Japanese Society of Tribologists
2010
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oai:doaj.org-article:f56d70ff496a44d5a5cfc4046771c9db2021-11-05T09:27:17ZPolymer Composites Filled with RB Ceramics Particles as Low Friction and High Wear Resistant Filler1881-219810.2474/trol.5.19https://doaj.org/article/f56d70ff496a44d5a5cfc4046771c9db2010-01-01T00:00:00Zhttps://www.jstage.jst.go.jp/article/trol/5/1/5_1_19/_pdf/-char/enhttps://doaj.org/toc/1881-2198In this study, five kinds of thermoplastic resin/RB ceramics composite materials were developed, and their tribological properties were investigated under dry and oil lubricated conditions. RB ceramics particles with mean diameter of 150 μm were compounded with five kinds of thermoplastic resins (PA66, PA11, PBT, POM, and PP). These compounds were formed into disk geometry by injection molding. A weight fraction of RB ceramics particles were 50 wt% for POM, 60 wt% for PA11 and PBT, and 70 wt% for PA66 and PP. Friction coefficients of the thermoplastic resin/RB ceramics composites were lower than those of the neat thermoplastic resins under dry condition, and those were much lower at low sliding velocities under oil lubricated condition. A stable value of friction coefficient against sliding velocity variation was also obtained for the thermoplastic resin/RB ceramics composites as compared with the neat thermoplastic resins under both dry and oil lubricated conditions. Furthermore, a remarkable reduction of specific wear rate was achieved for the newly developed composites as compared with the neat resins under dry condition (67-98% reduction) and oil lubricated conditions (68-99% reduction). These results would suggest that RB ceramics particles can be applied as filler for polymer composites providing both low friction and high wear resistance.Motoharu AkiyamaTakeshi YamaguchiKunihiro MatsumotoKazuo HokkirigawaJapanese Society of Tribologistsarticlefrictionwearpolymer compositerb ceramicsthermoplastic resinfillerPhysicsQC1-999Engineering (General). Civil engineering (General)TA1-2040Mechanical engineering and machineryTJ1-1570ChemistryQD1-999ENTribology Online, Vol 5, Iss 1, Pp 19-26 (2010) |
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friction wear polymer composite rb ceramics thermoplastic resin filler Physics QC1-999 Engineering (General). Civil engineering (General) TA1-2040 Mechanical engineering and machinery TJ1-1570 Chemistry QD1-999 |
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friction wear polymer composite rb ceramics thermoplastic resin filler Physics QC1-999 Engineering (General). Civil engineering (General) TA1-2040 Mechanical engineering and machinery TJ1-1570 Chemistry QD1-999 Motoharu Akiyama Takeshi Yamaguchi Kunihiro Matsumoto Kazuo Hokkirigawa Polymer Composites Filled with RB Ceramics Particles as Low Friction and High Wear Resistant Filler |
description |
In this study, five kinds of thermoplastic resin/RB ceramics composite materials were developed, and their tribological properties were investigated under dry and oil lubricated conditions. RB ceramics particles with mean diameter of 150 μm were compounded with five kinds of thermoplastic resins (PA66, PA11, PBT, POM, and PP). These compounds were formed into disk geometry by injection molding. A weight fraction of RB ceramics particles were 50 wt% for POM, 60 wt% for PA11 and PBT, and 70 wt% for PA66 and PP. Friction coefficients of the thermoplastic resin/RB ceramics composites were lower than those of the neat thermoplastic resins under dry condition, and those were much lower at low sliding velocities under oil lubricated condition. A stable value of friction coefficient against sliding velocity variation was also obtained for the thermoplastic resin/RB ceramics composites as compared with the neat thermoplastic resins under both dry and oil lubricated conditions. Furthermore, a remarkable reduction of specific wear rate was achieved for the newly developed composites as compared with the neat resins under dry condition (67-98% reduction) and oil lubricated conditions (68-99% reduction). These results would suggest that RB ceramics particles can be applied as filler for polymer composites providing both low friction and high wear resistance. |
format |
article |
author |
Motoharu Akiyama Takeshi Yamaguchi Kunihiro Matsumoto Kazuo Hokkirigawa |
author_facet |
Motoharu Akiyama Takeshi Yamaguchi Kunihiro Matsumoto Kazuo Hokkirigawa |
author_sort |
Motoharu Akiyama |
title |
Polymer Composites Filled with RB Ceramics Particles as Low Friction and High Wear Resistant Filler |
title_short |
Polymer Composites Filled with RB Ceramics Particles as Low Friction and High Wear Resistant Filler |
title_full |
Polymer Composites Filled with RB Ceramics Particles as Low Friction and High Wear Resistant Filler |
title_fullStr |
Polymer Composites Filled with RB Ceramics Particles as Low Friction and High Wear Resistant Filler |
title_full_unstemmed |
Polymer Composites Filled with RB Ceramics Particles as Low Friction and High Wear Resistant Filler |
title_sort |
polymer composites filled with rb ceramics particles as low friction and high wear resistant filler |
publisher |
Japanese Society of Tribologists |
publishDate |
2010 |
url |
https://doaj.org/article/f56d70ff496a44d5a5cfc4046771c9db |
work_keys_str_mv |
AT motoharuakiyama polymercompositesfilledwithrbceramicsparticlesaslowfrictionandhighwearresistantfiller AT takeshiyamaguchi polymercompositesfilledwithrbceramicsparticlesaslowfrictionandhighwearresistantfiller AT kunihiromatsumoto polymercompositesfilledwithrbceramicsparticlesaslowfrictionandhighwearresistantfiller AT kazuohokkirigawa polymercompositesfilledwithrbceramicsparticlesaslowfrictionandhighwearresistantfiller |
_version_ |
1718444385510621184 |