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V. V. Malysheva, A.I. Gabb, D. B. Shakhnina, A. D. Pisanenkoa, M. Ambrovac, V. Danielikc and P. Fellnerc

and Boron Carbides Interfaces with Ionic Melts), Poverkhnost’. Fizika, Khimiya, Mekhanika 1999(5/6): 153. Malyshev VV (2007) Teoreticheskiye osnovy I prakticheskaya realizatsiya elektroosazhdeniya molibdena iz ionnykh rasplavov (Theoretical Backgrounds and Practical Realization of Molybdenum Electrodeposition from Ionic Melts), Teor. Osnovy Khim. Tekhnol. 41(3): 302. Malyshev VV, Gab AI, Gaune-Escard M (2008) Initial stages of nucleation of molybdenum and tungsten carbide phases in tungstate-molybdate-carbonate melts, J. Applied

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I. Vītiņa, A. Knipele, V. Rubene, V. Belmane and M. Lubāne

References Kolaska, H., Dreyer, K. (1991). Hartmetalle Cermets and Keramiken als Verschleiβ-beständige Werkstoffe. Metall (Wissenschaft+Technik), 45 (3), 224-235. Malathy, P., Natarajan, S. R., Sharma, L. R. (1989). Nickel - Silicon Carbide Composites for Increasing Wear Resistance. Bull. Electrochem., 5 (9), 694-699. Vaezi, M. R., Sadrnezhaad, S. K., Nikzad. L. (2008). Electrodeposition of Ni-SiC nano-composite coatings and evaluation of wear and corrosion resistance and

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Alfio Torrisi, Przemysław Wachulak, Lorenzo Torrisi, Andrzej Bartnik, Łukasz Węgrzyński and Henryk Fiedorowicz

., Nanver, L. K., Scholtes, T. L. M., & Scholze, F. (2009). High performance silicon-based extreme ultraviolet (EUV) radiation detector for industrial application. In IEEE IECON’2009, 3-5 November 2009, Porto, Portugal (pp. 1877-1882). IEEE. 4. Balkanski, M. R., & Wallis, F. (2000). Semiconductor physics and applications. Oxford, New York: Oxford University Press. 5. Attwood, D. (1999). Soft x-rays and extreme ultraviolet radiation. Cambridge: Cambridge University Press. 6. Torrisi, L., Sciuto, A., Calcagno, L., Musumeci, P

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Agnieszka Zaraś-Szydłowska, Jan Badziak, Marcin Rosiński, Józef Makowski, Piotr Parys, Marek Piotrowski, Leszek Ryć and Jerzy Wołowski

-produced Cu plasma. J. Phys. D-Appl. Phys., 34 , 1885–1891. DOI: S0022-3727(01)19985-7. 5. Torrisi, L., Foti, G., Giuffrida, L., Puglisi, D., Wołowski, J., Badziak, J., Parys, P., Rosiński, M., Margarone, D., Krasa, J., Velyhan, A., & Ullschmied, U. (2009). Single crystal silicon carbide detector of emitted ions and soft X rays from power laser-generated plasmas. J. Appl. Phys ., 105 , 123304. DOI: 0021-8979/2009/10512/123304/7/. 6. Ryć, L., Badziak, J., Juha, L., Krasa, J., Kralikova, B., Laska, L., Parys, P., Pfeifer, M., Rohlena, K., Skala, J., Słysz, W

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Marek Wiertel, Zbigniew Surowiec, Mieczysław Budzyński, Jan Sarzyński and Anatoly I. Beskrovnyi

. Prog. Solid State Chem ., 36 (3), 192–212. DOI: 10.1016/j.progsolidstchem.2008.07.001. 4. Pokatilov, V. S., Sadchikov, V. V., Sidokhin, E. F., & Utenkova, O. V. (1986). Structure and magnetic properties of Fe-Sc alloys. Fiz. Met. Metalloved ., 62 (1), 69–75. 5. Gladyshevskii, E. I., Kotur, B. Y., Bodak, V. P., & Skvorchuk, V. P. (1977). Scandium-iron-silicon system. Dopov. Akad. Nauk Ukr. RSR, A, Fiz.-Tekh. Mat. Nauki (Ukrainian SSR) , 39 (8), 751–754. 6. Niessen, A. K., & DeBoer, F. R. (1981) The enthalpy of formation of solid borides, carbides, nitrides

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Maris Rundans and Ingunda Sperberga

cordierite and cordieritemullite materials. Journal of European Ceramic Society, 2001, vol. 21, N. 16, pp. 2917−2923. http://dx.doi.org/10.1016/S0955-2219(01)00219-9 6. Ozel, E., Kurama, S. Effect of the processing on the production of cordierite-mullite composite. Ceramics Interntional, 2010, vol. 36, N. 3, pp. 1033−1039. http://dx.doi.org/10.1016/j.ceramint.2009.11.013 7. Dimitrijevic, M., Posarac, M., Majstorovic, J., Volkov-Husovic, T., Matovic, B. Behavior of silicon carbide/cordierite composite material after cyclic thermal shock

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Wojciech Starosta, Viera K. Semina, Jerzy Smolik, Lech Waliś, Michał Rydzewski and Bożena Sartowska

-Sitton, S., & Galicki, D. (2012). Advanced LWR nuclear fuel cladding system development trade-off study . Idaho National Laboratory. (INL/EXT-12-27090). 11. Kurata, M. (2016). Research and development methodology for practical use of accident tolerant fuel in light water reactors. Nucl. Eng. Technol. , 48 , 26–32. DOI: https://doi.org/10.1016/j.net.2015.12.004 . 12. Yueh, K., & Terrani, K. A. (2014). Silicon carbide composite for light water reactor fuel assembly applications. J. Nucl. Mater ., 448 , 380–388. http://dx.doi.org/10.1016/j.jnucmat.2013