Professor PHILIP SHIPWAY's Outputs (6)

The dependence of wear rate on wear scar size in fretting: the role of debris (third body) expulsion from the contact (2019)
Journal Article
Zhu, T., Shipway, P., & Sun, W. (2019). The dependence of wear rate on wear scar size in fretting: the role of debris (third body) expulsion from the contact. Wear, 440-441, 203081. https://doi.org/10.1016/j.wear.2019.203081

The paper ‘The third-body approach: a mechanical view of wear’ by Maurice Godet (Wear, 100 (1984), pp 437–452) was perhaps the first to articulate clearly the key role of the rate of debris expulsion from a fretting contact in controlling the overall... Read More about The dependence of wear rate on wear scar size in fretting: the role of debris (third body) expulsion from the contact.

Influence of KCl and HCl on a Laser Clad FeCrAl Alloy: In-Situ SEM and Controlled Environment High Temperature Corrosion (2019)
Journal Article
Reddy, L., Sattari, M., Davis, C., Shipway, P., Halvarsson, M., & Hussain, T. (2019). Influence of KCl and HCl on a Laser Clad FeCrAl Alloy: In-Situ SEM and Controlled Environment High Temperature Corrosion. Corrosion Science, 158, 1-10. https://doi.org/10.1016/j.corsci.2019.07.003

This study investigated the effects of HCl and KCl on a laser-clad FeCrAl coating at 450 °C in an in-situ ESEM followed by a furnace exposure. In all in-situ TEM cross-sections, three major phases were identified: an iron rich oxide, an iron-chromium... Read More about Influence of KCl and HCl on a Laser Clad FeCrAl Alloy: In-Situ SEM and Controlled Environment High Temperature Corrosion.

Sliding wear of a self-mated thermally sprayed chromium oxide coating in a simulated PWR water environment (2019)
Journal Article
Ratia, V., Zhang, D., Daure, J., Shipway, P., McCartney, D., & Stewart, D. (2019). Sliding wear of a self-mated thermally sprayed chromium oxide coating in a simulated PWR water environment. Wear, 426-427(Part B), 1466-1473. https://doi.org/10.1016/j.wear.2018.12.058

Bearing surfaces in the primary circuit of pressurized water reactors (PWR) are prone to damage due to aggressive chemical and tribological conditions under which they operate, and a wide range of materials have been examined in this regard. One of t... Read More about Sliding wear of a self-mated thermally sprayed chromium oxide coating in a simulated PWR water environment.

Modelling the effectiveness of oil lubrication in reducing both friction and wear in a fretting contact (2019)
Journal Article
Sun, W., Shipway, P., Wenjie, Q., Wang, M., & Li, X. (2019). Modelling the effectiveness of oil lubrication in reducing both friction and wear in a fretting contact. Wear, 426-427(Part A), 770-777. https://doi.org/10.1016/j.wear.2019.02.029

Lubrication is often employed in fretting contacts to reduce wear and stresses associated with high friction. Owing to the very small displacements associated with fretting, penetration of lubricating oils into the contact may not be effective. The e... Read More about Modelling the effectiveness of oil lubrication in reducing both friction and wear in a fretting contact.

Comparison of the sliding wear behaviour of self-mated HIPed Stellite 3 and Stellite 6 in a simulated PWR water environment (2019)
Journal Article
Ratia, V. L., Zhang, D., Carrington, M. J., Daure, J. L., McCartney, D. G., Shipway, P. H., & Stewart, D. A. (2019). Comparison of the sliding wear behaviour of self-mated HIPed Stellite 3 and Stellite 6 in a simulated PWR water environment. Wear, 426-427(Part B), 1222-1232. https://doi.org/10.1016/j.wear.2019.01.116

Cobalt-based alloys such as Stellite 3 and Stellite 6 are widely used to protect stainless steel surfaces in primary circuit nuclear reactor applications where high resistance to wear and corrosion are required. In this study, selfmated sliding wear... Read More about Comparison of the sliding wear behaviour of self-mated HIPed Stellite 3 and Stellite 6 in a simulated PWR water environment.

Debris development in fretting contacts: debris particles and debris beds (2019)
Journal Article
Kirk, A., Shipway, P., Sun, W., & Bennett, C. (2019). Debris development in fretting contacts: debris particles and debris beds. Tribology International, https://doi.org/10.1016/j.triboint.2019.01.051

In this study, the formation and destruction of compacted beds of oxidized debris particles are investigated. Fretting tests of steel specimens were conducted, employing a cylinder-on-flat geometry with displacement amplitude being varied. The debris... Read More about Debris development in fretting contacts: debris particles and debris beds.