Page 157 - дисертація Головчук
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157
74. Lampe Th., Eisenberg S., Cabeo E.R. Plasma surface engineering in the
automotive industry-trends and future prospectives. Surface and Coatings Technology.
2003. Vol. 174-175. P. 1-7.
75. Wayne S.F., Sampath S., Anand V. Wear mechanisms in thermally-sprayed
Mo-based coatings. Tribology Transactions. 1994. Vol. 37. Р. 636-640.
76. Kim Y.S. Influences of alloyed molybdenum and molybdate addition on
the corrosion properties and passive film composition of stainless steels. Metals and
Materials International. 1998. Vol. 4. № 2. Р. 183-191.
77. Liu Z., Hua M. Wear transitions and mechanisms in lubricated sliding of a
molybdenum coating. Tribology International. 1999. Vol. 32. Р. 499-506.
78. Hwang B., Lee S., Ahn J. Correlation of microstructure and wear resistance
of molybdenum and molybdenum blend coatings fabricated by atmospheric plasma
spraying. Mater. Sci. Ena. 2004. Vol. A366. P.152-163.
79. Applications of Mo and Mo-alloys as thermal spray coatings, in
molybdenum and molybdenum alloys. / S. Sampath, S. Usmani, D.L. Houck et al. TMS.
1998. Vol. 142. P. 415-424.
80. Tura J.M., Traveria A., Castellar M.D. Frictional propertiesand wear of a
molybdenum coating and a bronze (Cu-10%Sn) with friction modifier fillers. Wear.
1995. Vol. 189. Р. 70-76.
81. Nakashima K., Hosoda M., Yago W., Inagaki K. Synchronizer ring having
a spray-coated film of a wear-resistant brass material. US Patent 5326646, July 1994.
82. Ahn J., Hwang B., Lee S. Correlation of microstructure and wear resistance
of ferrous coatings fabricated by atmospheric plasma spraying. Metallurgical and
Materials Transactions. 2002. Vol. A33. № 9. Р. 2933-2945.
83. Edrisy A., Alpas A.T. Effect of environment on sliding wear ofthermal
sprayed low carbon steel. Mechanical, Automotive and Materials Engineering.
Windsor: University of Windsor, 1994. P. 47-52.
