2016
DOI: 10.1007/s11249-016-0669-8
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The Transient Friction Response of a Laser-Textured, Reciprocating Contact to the Entrainment of Individual Pockets

Abstract: To shed light on the mechanisms with which surface texture improves the tribological performance of piston-liner contacts, we have measured the transient friction response as individual pockets pass through a reciprocating sliding contact. Tests were performed at different sliding speeds and results compared to those from a non-textured, reference specimen under different lubrication regimes. At low speed when the contact is in the boundary regime, friction force falls abruptly as each pocket leaves the contac… Show more

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Cited by 54 publications
(43 citation statements)
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“…The "U" shaped variation of the frictional response in the highlighted raw data plots is explained by the contact operating under mixed lubrication conditions (along the stroke, friction decreases with speed due to film formation). At the beginning of the test, when the composite roughness of the two surfaces is very low (i.e., 15 nm), the fully-flooded non-textured sample gives the lowest friction; this behaviour is in agreement with previous studies [13,[31][32][33] and is due to the contact operating around the transition between hydrodynamic and mixed lubrication regime. However, as shown in [33], the roughening of the surfaces due to wear causes a transition into the mixed regime where the textured surface begins to outperform the non-textured one (in this case after approximately 40 minutes of rubbing).…”
Section: Overall Oil Transport and Replenishment Due To Surface Texturesupporting
confidence: 90%
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“…The "U" shaped variation of the frictional response in the highlighted raw data plots is explained by the contact operating under mixed lubrication conditions (along the stroke, friction decreases with speed due to film formation). At the beginning of the test, when the composite roughness of the two surfaces is very low (i.e., 15 nm), the fully-flooded non-textured sample gives the lowest friction; this behaviour is in agreement with previous studies [13,[31][32][33] and is due to the contact operating around the transition between hydrodynamic and mixed lubrication regime. However, as shown in [33], the roughening of the surfaces due to wear causes a transition into the mixed regime where the textured surface begins to outperform the non-textured one (in this case after approximately 40 minutes of rubbing).…”
Section: Overall Oil Transport and Replenishment Due To Surface Texturesupporting
confidence: 90%
“…During experiments to study the impact of viscosity on cavitation pattern, the oil temperature was controlled using the setup described in [13]. Friction force stability over time and test repeatability were analysed for both textured and nontextured specimens and confirmed previously in [13,31,32]. Under both mixed/boundary and hydrodynamic lubrication conditions, measurements were shown to be repeatable to within 0.1 N, over a period of months.…”
Section: Test Apparatus Specimens and Proceduresmentioning
confidence: 81%
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