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
Stavros Ntioudis, James P. Ewen, Daniele Dini & C. Heath Turner. (2023) A hybrid off-lattice kinetic Monte Carlo/molecular dynamics method for amorphous thin film growth. Computational Materials Science 229, pages 112421.
Crossref
Yu-Sheng Li, Seokhoon Jang, Fakhrul Hasan Bhuiyan, Ashlie Martini & Seong H. Kim. (2023) Molecular Structure and Environment Dependence of Shear-Driven Chemical Reactions: Tribopolymerization of Methylcyclopentane, Cyclohexane and Cyclohexene on Stainless Steel. Tribology Letters 71:2.
Crossref
Chenyang Bi, Qiang Guo & Qixuan Yang. (2022)
Re‐attainable lubrication films at 500°C converted through the positional polymerisation of
DCDPS
on the preset
Na
2
S
coating
. Lubrication Science 34:2, pages 154-167.
Crossref
Carlos Ayestarán Latorre, Joseph E. Remias, Joshua D. Moore, Hugh A. Spikes, Daniele Dini & James P. Ewen. (2021) Mechanochemistry of phosphate esters confined between sliding iron surfaces. Communications Chemistry 4:1.
Crossref
James P. Ewen, Carlos Ayestarán LatorreChiara Gattinoni, Arash Khajeh, Joshua D. Moore, Joseph E. Remias, Ashlie Martini & Daniele Dini. (2020) Substituent Effects on the Thermal Decomposition of Phosphate Esters on Ferrous Surfaces. The Journal of Physical Chemistry C 124:18, pages 9852-9865.
Crossref
Xin He, Dien Ngo & Seong H. Kim. (2019) Mechanochemical Reactions of Adsorbates at Tribological Interfaces: Tribopolymerizations of Allyl Alcohol Coadsorbed with Water on Silicon Oxide. Langmuir 35:48, pages 15451-15458.
Crossref
David W. Johnson. 2019. Aerospace Engineering. Aerospace Engineering.
S. J. Asadauskas. (2018) FROM HEAVY DUTY LUBRICANTS TO BIOBASED FLUIDS – LEGACY OF JOSEPH PEREZ. Green Tribology 1:1, pages 1-4.
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
Emily E. Hoffman & Laurence D. Marks. (2016) Graphitic Carbon Films Across Systems. Tribology Letters 63:3.
Crossref
Ala Alazizi, Anthony J. Barthel, Nicholas D. Surdyka, Jiawei Luo & Seong H. Kim. (2015) Vapors in the ambient—A complication in tribological studies or an engineering solution of tribological problems?. Friction 3:2, pages 85-114.
Crossref
Anthony J. Barthel & Seong H. Kim. (2014) Lubrication by Physisorbed Molecules in Equilibrium with Vapor at Ambient Condition: Effects of Molecular Structure and Substrate Chemistry. Langmuir 30:22, pages 6469-6478.
Crossref
Shin-Sung Yoo & Dae-Eun Kim. (2014) Vapor phase lubrication using high molecular weight lubricant for friction reduction of metals. International Journal of Precision Engineering and Manufacturing 15:5, pages 867-873.
Crossref
. 2014. Engineering Tribology. Engineering Tribology
371
428
.
David Johnson & John Hils. (2013) Phosphate Esters, Thiophosphate Esters and Metal Thiophosphates as Lubricant Additives. Lubricants 1:4, pages 132-148.
Crossref
Zhengping Zhao, Qiang Guo, Xia Li, Jinliang Sun, Zhijun Nie & Weili Luo. (2012) Preparation and properties of three novel poly(phosphazene‐aryl amide)s containing cyclotriphosphazene structures. Journal of Applied Polymer Science 128:6, pages 4368-4377.
Crossref
Ira J. Hill & W. Gregory Sawyer. (2009) Energy, Adhesion, and the Elastic Foundation. Tribology Letters 37:2, pages 453-461.
Crossref
David B. Asay, Michael T. Dugger & Seong H. Kim. (2007) In-situ Vapor-Phase Lubrication of MEMS. Tribology Letters 29:1, pages 67-74.
Crossref
Irwin L. Singer & Thierry Le Mogne. 2007. Superlubricity. Superlubricity
237
251
.
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
W.Gregory Sawyer & Pamela L. Dickrell. (2004) A fractional coverage model for gas–surface interaction in reciprocating sliding contacts. Wear 256:1-2, pages 73-80.
Crossref
Hyun I. Kim, Peter Frantz, Stephen V. Didziulis, Luis C. Fernandez-Torres & Scott S. Perry. (2003) Reaction of trimethylphosphate with TiC and VC(100) surfaces. Surface Science 543:1-3, pages 103-117.
Crossref
. 2003. Lubricated Wear - Science and Technology. Lubricated Wear - Science and Technology
171
201
.
David W. Johnson, Samantha Morrow, Nelson H. Forster & Costandy S. Saba. (2002) Vapor-Phase Lubrication: Reaction of Phosphate Ester Vapors with Iron and Steel. Chemistry of Materials 14:9, pages 3767-3775.
Crossref
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
Hugh Spikes. (2001) Tribology research in the twenty-first century. Tribology International 34:12, pages 789-799.
Crossref
D. M. Holmes, W. G. Sawyer & T. A. Blanchet. (2006)
Comparison of various C
2
H
x
for high‐temperature lubrication by
in situ
pyrolysis
. Lubrication Science 12:2, pages 169-184.
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
H.A. Spikes. 1998. Tribology for Energy Conservation, Proceedings of the 24th Leeds-Lyon Symposium on Tribology. Tribology for Energy Conservation, Proceedings of the 24th Leeds-Lyon Symposium on Tribology
35
47
.
Nicholas J. Barnick, Thierry A. Blanchet, W. Gregory Sawyer & James E. Gardner. (1998) High temperature lubrication of various ceramics and metal alloys via directed hydrocarbon feed gases. Wear 214:1, pages 131-138.
Crossref
W.Gregory Sawyer & Thierry A. Blanchet. (1997) High temperature lubrication of combined rolling/sliding contacts via directed hydrocarbon gas streams. Wear 211:2, pages 247-253.
Crossref
Lloyd S. Kamo, Ardy S. Kleyman, Walter Bryzik & Milad Mekari. High Temperature Tribological Coatings for Advanced Military Diesel Engines. High Temperature Tribological Coatings for Advanced Military Diesel Engines.
James L. Lauer. (2016) Wear-Induced Changes in the Raman, Infrared, and Fluorescence Spectra of Silicon Nitride Surfaces. Applied Spectroscopy 50:11, pages 1378-1388.
Crossref
I.L. Singer, Th. le Mogne, Ch. Donnet & J.M. Martin. 1996. The Third Body Concept Interpretation of Tribological Phenomena. The Third Body Concept Interpretation of Tribological Phenomena
79
90
.
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
E.E. Klaus, H. Li, C.I. Chen & J.L. Duda. (1993) Wear as measured with a four-ball wear tester using fully flooded and vapor phase with condensation lubrication methods. Wear 162-164, pages 944-949.
Crossref
M. Groeneweg, G. C. Barber & T. Freiheit. Vapor Delivered Lubrication of Diesel Engines - Uncooled Single Cylinder Engine Test. Vapor Delivered Lubrication of Diesel Engines - Uncooled Single Cylinder Engine Test.
E. E. Klaus, J. L. Duda, G. S. Jeng, N. S. Makim, M. A. Groeneweg & M. A. Balnaves. Vapor Phase Tribology for Advanced Diesel Engines. Vapor Phase Tribology for Advanced Diesel Engines.
Selda Gunsel, E. E. Klaus & R. W. Bruce. Friction Characteristics of Vapor Deposited Lubricant Films. Friction Characteristics of Vapor Deposited Lubricant Films.
H.S. Cheng. 1989. Tribological Design of Machine Elements, Proceedings of the 15th Leeds-Lyon Symposium on Tribology held at Bodington Hall, The University of Leeds. Tribological Design of Machine Elements, Proceedings of the 15th Leeds-Lyon Symposium on Tribology held at Bodington Hall, The University of Leeds
3
12
.
. 1989. Tribology of Miniature Systems. Tribology of Miniature Systems
509
557
.
James L. Lauer & Scott R. Dwyer. (2011) Continuous High Temperature Lubrication of Ceramics by Carbon Generated Catalytically. MRS Proceedings 140.
Crossref