Egheosa Ogbomo, Fakhrul H. Bhuiyan, Carlos Ayestarán Latorre, Ashlie Martini & James P. Ewen. (2024) Effects of surface chemistry on the mechanochemical decomposition of tricresyl phosphate. Physical Chemistry Chemical Physics.
Crossref
Zhe Chen & Seong H. Kim. (2022) Tuning super-lubricity via molecular adsorption. Applied Materials Today 29, pages 101615.
Crossref
Eric Osei-Agyemang, Stephen Berkebile & Ashlie Martini. (2018) Decomposition Mechanisms of Anti-wear Lubricant Additive Tricresyl Phosphate on Iron Surfaces Using DFT and Atomistic Thermodynamic Studies. Tribology Letters 66:1.
Crossref
Bihan Guan, Bernadeta A. Pochopien & Dominic S. Wright. (2016) The chemistry, mechanism and function of tricresyl phosphate (TCP) as an anti-wear lubricant additive. Lubrication Science 28:5, pages 257-265.
Crossref
. 2014. Engineering Tribology. Engineering Tribology
679
734
.
Leslie RudnickW Phillips, Douglas Placek & Michael Marino. 2013. Synthetics, Mineral Oils, and Bio-Based Lubricants. Synthetics, Mineral Oils, and Bio-Based Lubricants
81
108
.
Keiji Sasaki, Naruhiko Inayoshi & Kohji Tashiro. (2010) Friction-induced dynamic chemical changes of tricresyl phosphate as lubricant additive observed under boundary lubrication with 2D fast imaging FTIR-ATR spectrometer. Wear 268:7-8, pages 911-916.
Crossref
Gwidon W. Stachowiak & Andrew W. Batchelor. 2006. Engineering Tribology. Engineering Tribology
651
704
.
A.J. Gellman & N.D. Spencer. 2005. Wear – Materials, Mechanisms and Practice. Wear – Materials, Mechanisms and Practice
95
122
.
D. Kim, D. Sung & A. J. Gellman. (2005) Activation of SiC Surfaces for Vapor Phase Lubrication by Chemical Vapor Deposition of Fe. Tribology Letters 20:1, pages 31-41.
Crossref
Dougyong Sung, Donggun Kim & Andrew J. Gellman. (2005) The surface chemistry of vapor phase lubricants: tricresylphosphate on Ni(1 0 0). Tribology International 38:2, pages 151-157.
Crossref
Hon So, Mathias Woydt, Zygmunt Rymuza, Czeslaw Kajdas, Michael Furey, Joz¡e Viz¡intin, Wilfred Tysoe, Peter Kotvis, Ilia Buyanovsky, Zinaida Ignatieva, Ruvim Zaslavsky, Matgorzata Ziomek-Moroz, Jeffrey Hawk, Einar Bardal & Asgeir Bardal. 2004. Surface Modification and Mechanisms. Surface Modification and Mechanisms.
D Sung & A.J Gellman. (2002) The surface chemistry of alkyl and arylphosphate vapor phase lubricants on Fe foil. Tribology International 35:9, pages 579-590.
Crossref
A. J. Gellman & N. D. Spencer. (2016) Surface chemistry in tribology. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 216:6, pages 443-461.
Crossref
Daxing Ren, Ge Zhou & Andrew J. Gellman. (2001) The decomposition mechanism of trimethylphosphite on Ni(111). Surface Science 475:1-3, pages 61-72.
Crossref
Arvind M. N. Rao. (2006) High‐temperature vapour‐phase lubrication. Journal of Synthetic Lubrication 16:3, pages 223-232.
Crossref
K. W. Van Treuren, D. N. Barlow, W. H. Heiser, M. J. Wagner & N. H. Forster. (1998) Investigation of Vapor-Phase Lubrication in a Gas Turbine Engine. Journal of Engineering for Gas Turbines and Power 120:2, pages 257-262.
Crossref
J. Christopher Smith, Michael J. Furey & Czeslaw Kajdas. (1995) An exploratory study of vapor-phase lubrication of ceramics by monomers. Wear 181-183, pages 581-593.
Crossref
Hitoshi GOTOH, Tetsuro TSUJIMOTO & Hiroji NAKAGAWA. (1993) BED-LOAD DISCHARGE IN OSCILLATION-CURRENT COEXISTING FLOW振動流・一方向流共存場における掃流砂量. Doboku Gakkai Ronbunshu 1993:473, pages 65-72.
Crossref
. 1993. Engineering TriBology. Engineering TriBology
715
771
.
P. W. Centers. (1992) Potential neurotoxin formation in thermally degraded synthetic ester turbine lubricants. Archives of Toxicology 66:9, pages 679-680.
Crossref
Tetsuro TSUJIMOTO, Hitoshi GOTOH & Hiroji NAKAGAWA. (1992) NON-EQUILIBRIUM SEDIMENT TRANSPORT ALONG A TEMPORAL AXIS時間軸上に展開された非平衡流砂過程のモデル化. Doboku Gakkai Ronbunshu 1992:443, pages 37-46.
Crossref