L. E. Toth, Transition metal carbides and nitrides, p.328, 1971.

J. Balko, T. Csanádi, R. Sedlák, M. Vojtko, A. Koval?íková et al.,

. Naughton-duszová, Nanoindentation and tribology of VC, NbC and ZrC refractory 330 carbides, Journal of the European Ceramic Society, vol.37, pp.4371-4377, 2017.

,

F. Monteverde, A. Bellosi, and L. Scatteia, Processing and properties of ultra-high temperature 333 ceramics for space applications, Materials Science and Engineering: A, vol.485, pp.415-334, 2008.

K. Minato, T. Ogawa, K. Fukuda, H. Nabielek, H. Sekino et al., Fission 336 product release from ZrC-coated fuel particles during postirradiation heating at 1600°C, 337, Journal of Nuclear Materials, vol.224, pp.85-92, 1995.

S. Ueta, J. Aihara, A. Yasuda, H. Ishibashi, T. Takayama et al., , p.340

, ZrC coating layer for the coated fuel particle of the very high temperature reactor, Journal, p.341

, Nuclear Materials, vol.376, pp.146-151, 2008.

Y. Katoh, G. Vasudevamurthy, T. Nozawa, and L. L. Snead, Properties of zirconium carbide for 343 nuclear fuel applications, Journal of Nuclear Materials, vol.441, pp.718-742, 2013.

,

W. A. Mackie and P. R. Davis, Single-crystal zirconium carbide as a high-temperature 346 thermionic cathode material, IEEE Transactions on Electron Devices, vol.36, pp.220-224, 1989.

,

J. Brückner and T. Mäntylä, Reactive magnetron sputtering of zirconium carbide films using 349

, Ar-CH4 gas mixtures, Surface and Coatings Technology, vol.59, pp.166-170, 1993.

, , pp.90077-90079

J. Xu, S. Jiang, Y. Wang, S. Shang, D. Miao et al., Photo-thermal conversion and thermal 352 insulation properties of ZrC coated polyester fabric, Fibers Polym, vol.18, pp.1938-1944, 2017.

,

X. Gao, H. Guo, T. Zhou, and G. Liu, Optical properties and failure analysis of ZrC-355

, ZrOx ceramic based spectrally selective solar absorbers deposited at a high substrate 356 temperature, Solar Energy Materials and Solar Cells, vol.176, pp.93-99, 2018.

,

A. Aleman, C. Li, H. Zaid, H. Kindlund, J. Fankhauser et al.,

. Kodambaka, Ultrahigh vacuum dc magnetron sputter-deposition of epitaxial

. Pd, Al2O3(0001) thin films, Journal of Vacuum Science & Technology A, vol.36, issue.111, p.30602, 2018.

N. Fairley and A. Carrick, Casa XPS User's Manual, 2001.

J. P. Fankhauser, Growth and Characterization of Zr and ZrC Thin Films on Al2O3, p.425

, UCLA, February, vol.15, 2016.

M. Mayer, SIMNRA, a simulation program for the analysis of NRA, AIP 427 Conference Proceedings, vol.475, pp.541-544, 1999.

A. I. Kolesnikov, A. M. Balagurov, I. O. Bashkin, A. V. Belushkin, E. G. Ponyatovsky et al.,

. Prager, Neutron scattering studies of ordered gamma -ZrD, J. Phys.: Condens. Matter, vol.6, pp.8977-8988, 1994.

C. Aguzzoli, C. A. Figueroa, G. V. Soares, and I. J. Baumvol, Physicochemical and structural 432 characteristics of TiC and VC thin films deposited by DC reactive magnetron sputtering, p.433

, Mater Sci, vol.45, pp.4994-5001, 2010.

H. Colder, R. Rizk, M. Morales, P. Marie, J. Vicens et al., Influence of substrate 435 temperature on growth of nanocrystalline silicon carbide by reactive magnetron sputtering, Journal of Applied Physics, vol.436, p.24313, 2005.

C. Chen, C. Liu, and C. A. Tsao, Influence of growth temperature on microstructure and 438 mechanical properties of nanocrystalline zirconium carbide films, Thin Solid Films, vol.479, pp.130-136, 2005.

A. Escudeiro, N. M. Figueiredo, T. Polcar, and A. Cavaleiro, Structural and mechanical 441 properties of nanocrystalline Zr co-sputtered a-C(:H) amorphous films, Applied Surface, p.442

, Science, vol.325, pp.64-72, 2015.

U. Jansson and E. Lewin, Sputter deposition of transition-metal carbide films -A critical 444 review from a chemical perspective, Thin Solid Films, vol.536, pp.1-24, 2013.

,

R. Blume, D. Rosenthal, J. Tessonnier, H. Li, A. Knop-gericke et al., , p.447

, Characterizing Graphitic Carbon with X-ray Photoelectron Spectroscopy: A Step-by-Step 448

C. Approach, , pp.2871-2881, 2015.