Browsing by Author "Faulkner, M. D."
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Item Open Access The Influence of Specimen Misalignment on Wear in Conforming Pin on Disk Tests(Elsevier Science B.V., Amsterdam., 2004-07-01T00:00:00Z) Garcia-Prieto, I.; Faulkner, M. D.; Alcock, Jeffrey R.A pin-on-disk test apparatus was modified to decrease the degree of misalignment between the pin end and the disk counterface. This was achieved by separate alignment of both pin and disk. Disk alignment was allowed by incorporating a kinematic three-ball arrangement into the disk under-face. A self-aligning pin alignment system was introduced which did not require the perpendicularity of the pin to be measured. The unmodified system had an alignment within that permitted by the ASTM G99-95a standard. However, the modified, and improved, alignment system produced significant changes in recorded wear behaviour in comparison with the unmodified system. The standard deviation of the wear data was considerably reduced and the correlation of the wear data with applied load significantly improved. The modified alignment also reduced the absolute value of wear recorded. This effect was observed for both wear volume assessed from mass change and wear volume assessed from pin height change. The reduced constraint of a misaligned pin in comparison with that of a well-aligned pin may account for the difference in these results.Item Open Access Investigation of the influence of the design of a pin-on-disk tribometer on friction data(Cranfield University, 2007-04) Lockyer, A. P.; Faulkner, M. D.; Alcock, Jeffrey R.Vibrational analysis performed on a common design of pin-on-disk tribometer showed that high frequency oscillatory friction forces were generated between the pin and the disk during a test. These resulted in the tribometer exhibiting friction-induced vibration, during which it oscillated at a natural frequency. This oscillation had two effects; firstly the friction data generated between the pin and the disk was modified such that the recorded friction data was not an accurate representation of 'real' data. The second effect was that the tribometer modified the sliding conditions being tested, leading to a disparity in the recorded friction data, when compared to data obtained with the sliding conditions held at a constant value. For meaningful friction data to be recorded the influence of the tribometer must be kept to a minimum. A dynamic model of a tribometer was constructed to investigate the coupling between oscillatory friction data and the tribometer's dynamics, and the influence it had on the accuracy of the recorded friction data. The model quantified the influence that the tribometer had on the recorded friction data and the deviation in sliding conditions. Using the model a stiffer design of the tribometer was designed and constructed with the aim of minimising the influence of the dynamic characteristics on the friction data. Vibrational analysis of the modified stiffer tribometer set-up showed that it was still exhibiting friction-induced vibration, and as such the dynamics of the tribometer still had a significant impact on the accuracy of the friction data produced. There were significant differences in the way the tribometer's dynamics influenced the friction data for the two set-ups. Friction testing with the two set-ups showed that both set- ups produced repeatable friction data, but with very different average friction coefficients and variations in the friction data during a test.