Items where Author is "Rainforth, W. M."

SEABOURNE, C. R., ROSS, I, M., RAINFORTH, W. M., SCOTT, A. J., MENDIS, B. G. and HOVSEPIAN, P. (2010). EELS and ELNES studies of nano-scale nitride multilayers deposited by unbalanced magnetron sputtering. Journal of Physics: Conference Series, 241, 012046. [Article]

ROSS, I. M., RAINFORTH, W. M., SEABOURNE, C. R., SCOTT, A. J., WANG, P., MENDIS, B. G., BLELOCH, A. L., REINHARD, C. and HOVSEPIAN, P. (2010). Electron energy loss spectroscopy of nano-scale CrAlYN/CrN–CrAlY(O)N/Cr(O)N multilayer coatings deposited by unbalanced magnetron sputtering. Thin Solid Films, 518 (18), p. 5121. [Article]

ZHOU, Z., RAINFORTH, W. M., LUO, Q., HOVSEPIAN, Papken, OJEDA, J. J. and ROMERO-GONZALEZ, M. E. (2010). Wear and friction of TiAlN/VN coatings against Al2O3 in air at room and elevated temperatures. Acta Materialia, 58, 2912-2925. [Article]

ZHOU, Z., RAINFORTH, W. M., LUO, Q., HOVSEPIAN, Papken, OJEDA, J. J. and ROMERO-GONZALEZ, M. E. (2010). Wear and friction of TiAlN/VN coatings against Al2O3 in air at room and elevated temperatures. Acta Materialia, 58, 2912-2925. [Article]

LUO, Q., ZHOU, Z., RAINFORTH, W. M. and BOLTON, M. (2009). Effect of tribofilm formation on the dry sliding friction and wear properties of magnetron sputtered TiAlCrYN coatings. Tribology Letters, 34, 113-124. [Article]

ZHOU, Z. X., ROSS, I. M., RAINFORTH, W. M., CAVALEIRO, A., EHIASARIAN, A. P. and HOVSEPIAN, P. E. (2009). Degradation of a C/CrC PVD coating after annealing in Ar + H-2 at 700 degrees C studied by Raman spectroscopy and transmission electron microscopy. Materials at high temperatures, 26 (2), 169-176. [Article]

WALKER, J. C., ROSS, I. M., REINHARD, C., RAINFORTH, W. M. and HOVSEPIAN, P. E. (2009). High temperature tribological performance of CrAlYN/CrN nanoscale multilayer coatings deposited on gamma-TiAl. Wear, 267 (5-8), 965-975. [Article]

ZHOU, Z., RAINFORTH, W. M., FALKE, U., FALKE, M., BLELOCH, A. and HOVSEPIAN, P. E. (2007). On the structure and composition of nanoscale TiAIN/VN multilayers. Philosophical Magazine, 87 (6), 967-978. [Article]

ZHOU, Z., RAINFORTH, W. M., RODENBURG, C., HYATT, N. C., LEWIS, D. B. and HOVSEPIAN, P. E. (2007). Oxidation behavior and mechanisms of TiAIN/VN coatings. Metallurgical and Materials Transactions. A.,Physical Metallurgy and Materials Science, 38A (10), 2464-2478. [Article]

ZHOU, Z., RAINFORTH, W. M., TAN, C. C., ZENG, P., OJEDA, J. J., ROMERO-GONZALEZ, M. E. and HOVSEPIAN, P. E. (2007). The role of the tribofilm and roll-like debris in the wear of nanoscale nitride PVD coatings. Wear, 263, 1328-1334. [Article]

LUO, Q., ZHOU, Z., RAINFORTH, W. M. and HOVSEPIAN, P. E. (2006). TEM-EELS study of low-friction superlattice TiAlN/VN coating: the wear mechanisms. Tribology Letters, 24 (2), 171-178. [Article]

ZHOU, Z. X., RAINFORTH, W. M., ROTHER, B., EHIASARIAN, A. P., HOVSEPIAN, P. E. and MUNZ, W. D. (2004). Elemental distributions and substrate rotation in industrial TiAlN/VN superlattice hard PVD coatings. Surface and Coatings Technology, 183 (2-3), 275-282. [Article]

ZHOU, Z., RAINFORTH, W. M., LEWIS, D. B., CREASY, S., FORSYTH, J. J., CLEGG, E., EHIASARIAN, A. P., HOVSEPIAN, P. E. and MUNZ, W. D. (2004). Oxidation behaviour of nanoscale TiAlN/VN multilayer coatings. Surface and Coatings Technology, 177, 198-203. [Article]

ZHOU, Z., RAINFORTH, W. M., HOVSEPIAN, P. E. and MUNZ, W. D. (2004). Oxidation of nanoscale TiAIN/VN multilayer coatings. In: MCVITIE, S. and MCCOMB, D., (eds.) Electron Microscopy and Analysis 2003. Institute of Physics Conference Series (179). Institute of Physics, 413-416. [Book Section]

LEWIS, D. B., CREASEY, S. J., ZHOU, Z., FORSYTH, J. J., EHIASARIAN, A. P., HOVSEPIAN, P. E., LUO, Q., RAINFORTH, W. M. and MUNZ, W. D. (2003). The effect of (Ti + Al): V ratio on the structure and oxidation behaviour of TiAlN/VN nano-scale multilayer coatings. Surface and coatings technology, 177, 252-259. [Article]

RAINFORTH, W. M., LEONARD, A. J., PERRIN, C., BEDOLLA-JACUINDE, A., WANG, Y., JONES, H. and LUO, Quanshun (2002). High resolution observations of friction-induced oxide and its interaction with the worn surface. Tribology International, 35 (11), 731-748. [Article]