Page 155 - Dys
P. 155
155
67. Moraless J., Esparza P., Fernandes G.T. et al. A comparative study on
the passivation and localized corrosion of α- and β-brass in borate buffer solutions
containing sodium chloride-II. X-ray photoelectron and Auger electron
spectroscopy data. Corrosion Science. 1995. Vol. 37. No. 2. Р. 231–239.
68. Wang X. Y., Li D. Y. Mechanical, electrochemical and tribological
properties of nano-crystalline surface of 304 stainless steel. Wear. 2003. Vol. 255.
No. 7–12. Р. 836–845.
69. Tsai M. C., Chiou C. S., Du J. S. et al. Phase transformation in AISI
410 stainless steel. Materials Science and Engineering: A. 2002. Vol. 332. No. 1–2
–Р. 1–10.
70. Sato M., Tsuji N., Yoritoshi Y.et al. Formation of nanocrystalline
surface layers in various metallic materials by near surface severe plastic
deformation. 2004. Science and Technology of Advanced Materials. Vol. 5. No. 1–
2. Р. 145–152.
71. Yurkova A. I., Byakova A. V., Belots’ky A. V. et al. Mechanical
behavior of nanostructured iron fabricated by severe plastic deformation under
diffusion flow of nitrogen. Materials Science Forum. 2006. Vols. 503–504. Р.
645–650.
72. Yurkova A. I., Belots’ky A. V, Byakova A. V. Anomalous nitrogen
solubility in gradient nanostructured layer formed in the surface of bulk iron by
severe plastic deformation under friction. Nanostructured Materials by High-
Pressure Severe Plastic Deformation. In: NATO Science Series II: Mathematics,
Physics and Chemistry. 2005. Vol. 212. Р. 107–112.
73. Yurkova A., Belots’ki F., Byakova A. et al. Nanocrystallization in
iron alloys induced by friction treatment and nitrogen diffusion. Metallic Materials
with High Structural Efficiency. In: NATO Science Series II: Mathematics, Physics
and Chemistry. 2004. Vol. 146. Р. 113–118.
74. Юркова О. І. Формування наноструктури та механічних
властивостей в α-залізі під час інтенсивної пластичної деформації тертям:
автореф. дис. … докт. техн. наук. Київ, 2008. 38 с.
