Tribological behaviour of nanodiamond reinforced UHMWPE in water-lubricated contacts
In this study, the tribological behaviour of nanodiamond reinforced UHMWPE composites was investigated in water-lubricated sliding contacts. A significant reduction of 72% in wear and 24% in friction of UHMWPE was observed with incorporation of 1wt% nanodiamond in the polymer matrix. Various bulk an...
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| Published in | Tribology international Vol. 110; pp. 195 - 200 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Kidlington
Elsevier Ltd
01.06.2017
Elsevier BV |
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| Abstract | In this study, the tribological behaviour of nanodiamond reinforced UHMWPE composites was investigated in water-lubricated sliding contacts. A significant reduction of 72% in wear and 24% in friction of UHMWPE was observed with incorporation of 1wt% nanodiamond in the polymer matrix. Various bulk and surface characterization techniques were utilised to reveal the main mechanisms involved in the friction and wear response of the polymeric materials. The improved tribological behaviour of UHMWPE upon incorporation of various loadings of nanodiamond in the polymer matrix was mainly attributed to the boundary lubricating action of nanodiamonds and the polishing effect of the nanodiamond reinforced UHMWPE composites on the counter surfaces in water-lubricated sliding contacts.
•Tribological response of UHMWPE investigated with addition of various loadings of ND.•72% reduction in wear and 24% in friction of UHMWPE with incorporation of 1wt% ND.•Various bulk and surface characterizations utilised to reveal the mechanisms involved.•Enhanced tribological behaviour attributed to polishing and lubricating effect of ND. |
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| AbstractList | In this study, the tribological behaviour of nanodiamond reinforced UHMWPE composites was investigated in water-lubricated sliding contacts. A significant reduction of 72% in wear and 24% in friction of UHMWPE was observed with incorporation of 1 wt% nanodiamond in the polymer matrix. Various bulk and surface characterization techniques were utilised to reveal the main mechanisms involved in the friction and wear response of the polymeric materials. The improved tribological behaviour of UHMWPE upon incorporation of various loadings of nanodiamond in the polymer matrix was mainly attributed to the boundary lubricating action of nanodiamonds and the polishing effect of the nanodiamond reinforced UHMWPE composites on the counter surfaces in water-lubricated sliding contacts. In this study, the tribological behaviour of nanodiamond reinforced UHMWPE composites was investigated in water-lubricated sliding contacts. A significant reduction of 72% in wear and 24% in friction of UHMWPE was observed with incorporation of 1wt% nanodiamond in the polymer matrix. Various bulk and surface characterization techniques were utilised to reveal the main mechanisms involved in the friction and wear response of the polymeric materials. The improved tribological behaviour of UHMWPE upon incorporation of various loadings of nanodiamond in the polymer matrix was mainly attributed to the boundary lubricating action of nanodiamonds and the polishing effect of the nanodiamond reinforced UHMWPE composites on the counter surfaces in water-lubricated sliding contacts. •Tribological response of UHMWPE investigated with addition of various loadings of ND.•72% reduction in wear and 24% in friction of UHMWPE with incorporation of 1wt% ND.•Various bulk and surface characterizations utilised to reveal the mechanisms involved.•Enhanced tribological behaviour attributed to polishing and lubricating effect of ND. In this study, the tribological behaviour of nanodiamond reinforced UHMWPE composites was investigated in water-lubricated sliding contacts. A significant reduction of 72% in wear and 24% in friction of UHMWPE was observed with incorporation of 1 wt% nanodiamond in the polymer matrix. Various bulk and surface characterization techniques were utilised to reveal the main mechanisms involved in the friction and wear response of the polymeric materials. The improved tribological behaviour of UHMWPE upon incorporation of various loadings of nanodiamond in the polymer matrix was mainly attributed to the boundary lubricating action of nanodiamonds and the polishing effect of the nanodiamond reinforced UHMWPE composites on the counter surfaces in water-lubricated sliding contacts. |
| Author | Emami, Nazanin Villain, Alexis Golchin, Arash |
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| SubjectTerms | Diamonds Electric contacts Friction Lubricants & lubrication Lubrication Machine Elements Maskinelement Nanodiamond Nanostructure Polymer matrix composites Polymers Sliding Studies Surface properties Tribology UHMWPE Ultra high molecular weight polyethylene Wear Wear mechanisms Wear resistance |
| Title | Tribological behaviour of nanodiamond reinforced UHMWPE in water-lubricated contacts |
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