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       Engineering, Science and Technology. 2012. Vol. 47, №. 3. P. 182–187.
            4.       Electrochemical  investigations  of  aluminium  alloys  tribocorrosion  /

       V.I. Pokhmurskii, I.M. Zin, H.V. Pokhmurska, V.A. Vynar. Int. J. Corros. Scale Inhib.
       2014. Vol. 3, № 2. Р.129–136.
            5.       Aluminium  Alloy  Corrosion  Inhibition  by  Chromate-Free  Composition  of
       Zinc  Phosphate  and  Ion  Exchanged  Zeolite  /  V.I.  Pokhmurskii,  I.M.  Zin,  L.M.  Bily,
       V.A.Vynar, Ya.I. Zin. Surface and Interface Analysis. 2013. Vol. 45. P. 1474–1478.
            6.       Effects of hydrogen exposure on the mechanical and tribological properties of
       α-titanium  surfaces  /  V.I.  Pokhmurskii,  V.A.  Vynar,  Ch.B. Vasyliv,  N.B. Ratska.
       Wear. 2013. Vol. 306, Iss. 1–2. P. 47–50.
            7.       The  influence  of  hydrogen  desorption  on  micromechanical  properties  and
       tribological  behavior  of  iron  and  carbon  steels  /  V.I.  Pokhmurskii,  M.S.  Khoma,
       V.A.  Vynar,  Сh.  Vasyliv,  N.  Ratska,  T.  Voronyak,  I.  Stasyshyn.  Procedia  Structural
       Integrity. 2018. Vol. 13. С. 2190–2195.
            8.       Determination of the Mechanism of Tribocorrosion of D16T Alloy According
       to  the  Electrode  Potential  /  V.A.  Vynar,  V.I.  Pokhmurskii,  I.M.  Zin,
       Kh. B. Vasyliv, O.P Khlopyk. Materials Science. 2018.Vol. 53, № 5. Р. 717–723.
            9.       Influence  of  the  External  Polarization  Potential  on  the  Tribocorrosion
       Behavior  of  08Kh18N10T  Steel  /  V.I.  Pokhmurskii,  M.S.  Khoma,V.A.  Vynar,
       Kh. B. Vasyliv, N.B. Rats’ka. Materials Science. 2018. Vol. 54, № 2. Р. 279–285.
            10.      Elevation of the Wear Resistance of Low-Alloy Structural Steel by Plasma-
       Powder  Surfacing  with  Alloys  Based  on  Iron,  Chromium,  and  Nickel  /
       E.F.  Perepl’otchikov,  K.B.  Vasyliv,  V.A.  Vynar,  I.O.  Ryabtsev,  V.I.  Zakiev.  Materials
       Science. 2018. Vol. 54, № 3. С. 378–386.
            11.      Influence of Electrolitic Hydrogenation on Tribological Behavior of Armco-
       Iron     and      Niobium        As     Model       Materials       With      BCC       Lattice      /
       V.I.  Pokhmurskii,  Ch.B.  Vasyliv,  V.A.  Vynar,  M.Ya.  Holovchuk,  N.B.  Ratska.  Second
       Ukrainian-Greek  Symposium  on  Fracture  Mechanics  of  Materials  and  Structures.
       3-7 October 2011, Lviv, 2011. P.95–98.
            12.      Conventional  electrochemical  and  micro-electrochemical  techniques  for
       studies of tribocorrosion on 2024 aluminium alloy / V. Pokhmurskii; I. Zin; V. Vynar; T.
       Lampke;      H.    Pokhmurska.        Proc.    of    EUROCORR          2011.     “Tribocorrosion”.
       5-8 September 2011, Stockholm, 2011. CD ROM. P. 40 .
            13.      The influence of electrolytic hydrogenation on changes in the surface layers
       of  materials  with  ferrite  and  pearlite  structure.  Halyna  Pokhmurska,  Vasyl  Vynar,
       Chrystyna  Vasyliv,  Taras  Voronyak,  Igor  Stasyshyn,  Andriy  Pokhmurskyy.  Joint
       EUROCORR 2017. The Annual Congress of the European Federation of Corrosion. 20th
       International  Corrosion  Congress  &  Process  Safety  Congress.  3-7  September  2017,
       Prague, 2017.
            14.      Preparation  of  Silver–Copper  Core–Shell  Nanoparticles  as  Anti–Wear  Oil
       Additive / A.R. Kytsya, L.I. Bazylyak, Yu.M. Hrynda, V.A. Vynar, S.A. Korniy. Book of
                          rd
       abstracts of the 3  International Conference «Nanomaterials: Applications & Properties–
       2013». 16–21 September 2013, Alushta, 2013. Vol. 2, № 2. P. 02PCN22–1 – 02PCN22–3.
            15.      Tribocorrosion of steel – steel couples in the presence of silver nanoparticles /
       Andriy  Kytsya,  Vasyl  Vynar,  Chrystyna  Vasyliv,  Liliya  Bazylyak,  Roman  Gushchak.