Authors:
Novoselova, IA
Kushkhov, KB
Malyshev, VV
Shapoval, VI
Citation: Ia. Novoselova et al., Theoretical foundations and implementation of high-temperature electrochemical synthesis of tungsten carbides in ionic melts, THEOR F CH, 35(2), 2001, pp. 175-187
Authors:
Shapoval, VI
Malyshev, VV
Tishchenko, AA
Kushkhov, KB
Citation: Vi. Shapoval et al., Electrochemical behavior of tungstate-carbonate melts and high-temperatureelectrochemical synthesis of tungsten carbide dispersed powders, RUS J AP CH, 73(4), 2000, pp. 604-609
Citation: Ia. Novoselova et al., Electroreduction of tungsten oxyfluoride complexes and carbonic acid in chloride-fluoride melts and electrochemical synthesis of tungsten carbide powders, RUSS J ELEC, 36(6), 2000, pp. 624-629
Authors:
Malyshev, VV
Novoselova, IA
Gab, AI
Pisanenko, AD
Shapoval, VI
Citation: Vv. Malyshev et al., Theoretical foundations of galvanic treatment of dielectrics and semiconductors in ionic melts, THEOR F CH, 34(4), 2000, pp. 391-402
Authors:
Shapoval, VI
Malyshev, VV
Tishchenko, AA
Kushkhov, KB
Citation: Vi. Shapoval et al., Physicochemical properties of tungsten carbide powders prepared from tonicmelts, INORG MATER, 36(10), 2000, pp. 1020-1023
Authors:
Malyshev, VV
Novoselova, IA
Gab, AI
Shapoval, VI
Kushkhov, KV
Citation: Vv. Malyshev et al., Electrodeposition of molybdenum and tungsten carbide coatings with the useof an electrode material (diamond) as a reagent, RUS J AP CH, 72(9), 1999, pp. 1559-1562
Citation: Vi. Shapoval et Vv. Malyshev, Electrochemical synthesis of titanium diboride in the dispersed state fromhalide melts, POWD MET ME, 38(11-12), 1999, pp. 556-559
Authors:
Shapoval, VI
Zarutskii, IV
Malyshev, VV
Uskova, NN
Citation: Vi. Shapoval et al., Current problems of titanium and boron electrochemistry, synthesis of titanium diboride and titanium metallides in ionic melts, USP KH, 68(11), 1999, pp. 1015-1028
Authors:
Harrison, NJ
Fox, NP
Sperfeld, P
Metzdorf, J
Khlevnoy, BB
Stolyarevskaya, RI
Khromchenko, VB
Mekhontsev, SN
Shapoval, VI
Zelener, MF
Sapritsky, VI
Citation: Nj. Harrison et al., International comparison of radiation-temperature measurements with filtered detectors over the temperature range 1380 K to 3100 K, METROLOGIA, 35(4), 1998, pp. 283-288