Publikációs jegyzék / Publications

Tematikus jegyzék / Papers thematically grouped

Fémolvadékok nedvesítése / Wettability by liquid metals

J.163. K.L.Juhasz, P.Baumli, J.Sytchev, G.Kaptay: Wettability of a graphite crucible by liquid aluminum under molten potassium halide fluxes. J Mater Sci, 2013, vol.48, pp. 7679-7685.

J.161. Z. Weltsch, A. Lovas, J. Takács, Á. Cziráki, A. Tóth, G. Kaptay: Measurement and Modelling of the Wettability of Graphite by a Silver-Tin (Ag-Sn) Liquid Alloy – Applied Surface Science, 2013, vol.268, pp.52-60.

J.150. Zs. Baji, A. Szanyo, Gy. Molnár, A.L. Toth, G. Pető, K. Frey, E. Kotai, G. Kaptay: Formation of Nanoparticles by Ion Beam Irradiation of Thin Films. J Nanosci Nanotechnology), 2012, vol. 12, No.6, pp. 5009-5015.

J.129: P.Baumli, J.Sytchev, G.Kaptay: Perfect wettability of carbon by liquid aluminum achieved by a multifunctional flux. J Mater Sci, 2010, vol.45, pp. 5177-5190.

J.127: I.Budai, G.Kaptay: Wettability of SiC and alumina particles by liquid Bi under liquid Al – J. Mater Sci, 2010, vol.45, pp.2090-2098. 

J.117: P.Baumli, G.Kaptay: Wettability of carbon surfaces by pure molten alkali chlorides and their penetration into a porous graphite substrate – Mater Sci Eng A, 2008, vol.495, pp.192-196.

J.114. P.Baumli, G.Kaptay: Wettability of carbon surfaces by molten alkali chloride mixtures - Mater Sci Forum, 2008, vol.589, pp.355-359.

J.66. G.Kaptay, E.Báder: Ion-dipole Adhesion Energy Model for Wettability of Oxide Ceramics by Non-reactive Liquid Metals – Trans. JWRI (Joining and Welding Research Institute), 2001, vol. 30., Special Issue, pp. 55-60.

J.65. E. Báder, L.Zoltai, M.Hördler, P.Arató, R.F.Singer, G.Kaptay: Wettability of Silicon Nitride Based Ceramic by Liquid Metals – Trans. JWRI (Joining and Welding Research Institute), 2001, vol. 30., Special Issue, pp. 137-141.

J.54. Báder E., Kaptay Gy.: Interfacial energies in the WC/Cu-Sn system (in Hungarian) – BKL Kohászat, 2000, 133. évf., 11. szám, 431-435.

J.44. Báder E., Bolyán L., Kaptay Gy., Báder I.: Study of interfacial energies for corrosion of ceramics in liquid metals (in Hungarian) – Korróziós Figyelő, 1999, 39. évf., 5. szám, 144-146.

J.11. Kaptay G. On surface properties of molten aluminum alloys of oxidized surface - Materials Science Forum Vol.77 (1991) pp.315-330

J.10. Borisoglebskii Yu.V., Vetyukov M.M., Karimov M.I., Kaptay G., Shkuryakov N.P. Study of wetting of refractory compounds and composites by cryolite/alumina melt and molten aluminum (in Russian) - Tsvetn. Met. (Moscow), 199I, (2), 4I-3

P.84. O.N.Verezub, L.Zoltai, G.Kaptay: Wettability of WC/Co/TiC ceramic substrates by liquid copper – Proc. of Microcad 2002, Section: Materials Science, University of Miskolc, 2002, 107-111

P.80. G.Kaptay, L.Zoltai, E.Báder: A Model to Predict Adhesion Energy and Contact Angle in Si3N4 / Nonreactive Liquid Metal Systems – Proc. of MICROCAD 2001, Section: Metallurgical Science, 2001, pp. 17-22

P.68. L.Zoltai, E.Bader, G.Kaptay, P.Arato: Wettability of Si3N4 ceramics by liquid metals – Proc. of Microcad ’2000, Section B: Materials Technology, University of Miskolc, pp. 121-126.

P.57. E.Báder, G.Kaptay, L.Zoltai: Wettability studies for the production of Cu-Sn/WC composites. – Proc. of International Scientific Conference ‘Competitive Materials, Technologies and Products’ (CMTP), Miskolc, 2000, pp. 39-45.

P.45. E.Báder, L.Bolyán, G.Kaptay, G.Zs.Hutkai: Measuring and Modelling of Adhesion Energy between non-reactive Liquid Metals and Oxide Ceramics – Proceedings of MICROCAD ’99, Section C: Materials Science and Technology, 1999, pp. 175-179

P.25. Kaptay Gy.: Derivation of the Young equation without vector algebra (in Hungarian) Termodinamikai Közlemények 1996. Szerkesztette Lámer Géza, ELFT, Budapest, 1997, 90-99.