Page 330 - Докторська дисертація_Ткачук
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56. Canillas M., Pena P., de Aza A.H. et al. Calcium phosphates for biomedical
applications. Boletín de la Sociedad Española de Cerámica y Vidrio. 2017.
Vol. 56. P. 91–112.
57. Daculsi G., Laboux O., Malard O. et al. Current state of the art of biphasic
calcium phosphate bioceramics. Journal of Materials Science: Materials in
Medicine. 2003. Vol. 14. P. 195–200.
58. Jursene E., Michailova L., Jureviciute S. et al. Synthesis and characterization
of calcium hydroxyapatite from waste phosphogypsum. Materials. 2025.
Vol. 18. Article No. 2869.
59. Li Z.-Y., Cai Z.-B., Wu Y.-P. et al. Effect of nitrogen ion implantation dose
on torsional fretting wear behavior of titanium and its alloy. Transactions of
Nonferrous Metals Society of China. 2017. Vol. 27. P. 324–335.
60. Vlcak P., Fojt J., Weiss Z. et al. The effect of nitrogen saturation on the
corrosion behaviour of Ti-35Nb-7Zr-5Ta beta titanium alloy nitrided by ion
implantation. Surface and Coatings Technology. 2019. Vol. 358. P. 144–152.
61. Vlcak P., Drahokoupil J., Vertat P. et al. Hardness response to the stability of
a Ti(+N) solid solution in an annealed TiN/Ti(+N)/Ti mixture layer formed
by nitrogen ion implantation into titanium. Journal of Alloys and Compounds.
2018. Vol. 746. P. 490–495.
62. Vlcak P. Evidence of a defect structure in high fluence nitrogen ion implanted
titanium and its effect on corrosion. Results in Physics. 2018. Vol. 11. P. 274–
277.
63. Serban V.A., Rosu R.A., Bucur A.I. et al. Deposition of titanium nitride layers
by electric arc-reactive plasma spraying method. Applied Surface Science.
2013. Vol. 265. P. 245–249.
64. Manhabosco T.M., Tamborim S.M., dos Santos C.B. et al. Tribological,
electrochemical and tribo-electrochemical characterization of bare and
nitrided Ti6Al4V in simulated body fluid solution. Corrosion Science. 2011.
Vol. 53. P. 1786–1793.
