Page 347 - Microsoft Word - Дисертація_Винар_end
P. 347
347
98. Zhang Y., Yin X.-Y., Yan F.-Y. Tribocorrosion behaviour of type S31254
steel in seawater: Identification of corrosion-wear components and effect of
potential. Materials Chemistry and Physics. 2016. Vol. 179. P. 273–281.
99. Tribocorrosion properties of different type titanium alloys in simulated body
fluid. / I. Hacisalihoglu, et al. Wear. 2016. Vol. 332-333.
100. Tribocorrosion behavior of hot pressed CoCrMo alloys in artificial saliva. /
M. Buciumeanu, et al. Tribology International. 2016. Vol. 97. P. 423–430.
101. https://www.intechopen.com/books/advances-in-tribology/tribocorrosion
102. Guo-Hua Zhao, Ragnhild E. Aune, Nuria Espallargas. Tribocorrosion
studies of metallic biomaterials: The effect of plasma nitridingand DLC surface
modifications. Journal of the Mechanical Behavior of Biomedical Materials.
http://dx.doi.org/10.1016/j.jmbbm.2016.06.014
103. Aperador W., Duque J., Delgado E. Electrochemical Impedance Studies on
Tribocorrosion of Coatings AlxTi1-xN Deposited on Austenitic Steels.
International Journal of ELECTROCHEMICAL SCIENCE. 2016. №11. P. 1070
– 1079.
104. Zavieh A. H., Espallargas, N. Effect of 4-point bending and normal load on
the tribocorrosion-fatigue (multi-degradation) of stainless steels. Tribology
International. 2016. Vol. 99. P. 96–106.
105. Zavieh A. H., Espallargas, N. The role of surface chemistry and fatigue on
tribocorrosion of austenitic stainless steel. Tribology International. 2016. Vol.
103. P. 368–378.
106. Современные методы исследования коррозионно-механического
изнашивания / Е.А. Памфилов, и др. Известия Самарского научного
центра РАН. 2016. т.17. №1 С.146-149.
107. Ben Saada, F., Elleuch, K., Ponthiaux, P. On the Tribocorrosion Responses
of Two Stainless Steels. Tribology Transactions. 2017. Vol. 61. № 1. P. 53–60.
