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интересует вот этот доклад

ВЛИЯНИЕ ОКСИДНОЙ ФАЗЫ НА ЭФФЕКТИВНОСТЬ ЭЛЕКТРОЛИЗА РАСПЛАВЛЕННОГО Sb2S3

сайт конференции где упоминание о докладе

http://www.mishr.ural.ru/?p=dokl&dkod=1227

Не знаю в каком журнале это могло быть напечатано. Буду признателен,если кто поможет найти текст.

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Так напишите автору - он наверняка с радостью пошлет Вам свой труд (ну или по крайней мере скажет Вам журнал)!

Вот его контакты (нашел в поисковике за минуту):

Мустяца Олег Никифорович, кандидат химических наук, доцент, Национальный транспортный университет, профессор кафедры дорожно-строительных материалов и химии, e-mail: chemus@ukr.net, Украина, 01010, г. Киев, ул. Суворова, 1.

ПС Ого, да у него кандидатская по этой теме!

"Канд. дис. «Изучение электрохимических и электрофизических свойств расплавов халькогенидов Аs, Sb, Ві» (1971)".

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Что а это мысль,я как-то и не задумывался об таком простом решении.

 

Это обычная практика была когда-то (не знаю - как сейчас). Просить напрямую у автора репринт статьи. Автору очень приятно (ЧСВ почесать :)), а просителю - удобно.

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А конференция-то, по ходу, еще только будет - на сайте указано: конец сентября 2015... Так что тезисов тупо нет еще.
Короче, залез я в Scopus и нашел журналы, где сей автор публикуется. Вот:

 

Scopus
EXPORT DATE:09 Sep 2015

Tumanova, N.Kh., Bojko, O.I., Trifonova, T.V., Lysin, V.I., Mustyatsa, O.N., Buryak, N.I.
Electrochemical properties of low-temperature acetamide-based solvent melts
(2004) Ukrainskij Khimicheskij Zhurnal, 70 (11-12), pp. 47-50.
AFFILIATIONS: Inst. Obshchej i Neorgan. Khimii, Kiev, Ukraine
ABSTRACT: The electrochemical properties of melts of acetamide, acetamide-NH4Cl, carbamide-acetamide-NH4Cl were studied with platinum electrodes. The composition, melt temperature and electric conductivity of the ternary melt were defined. The specific features of the melt electrochemical behavior connected with its tendency to overcooling are shown.
DOCUMENT TYPE: Article
SOURCE: Scopus

Zasukha, V.A., Prisyazhnyj, V.D., Lisin, V.I., Mustyatsa, O.N., Golub, B.I.
Nature of electrical conductivity variation in chalcogenide-halogenide melts
(2002) Rasplavy, (1), pp. 56-61.
AFFILIATIONS: Organizatsiya Inzh. Industrii Plast., Kiev, Ukraine
ABSTRACT: A diagram of levels of the tetrahedral chalco- and halogenide complexes of s- and sp-elements is constructed with the help of the methods of theoretical-and-group analysis and linear combinations of the atomic and group orbitals of the central and ligand atoms respectively. The structures of valent and conductivity zones are determined for fused chalcogenides. A formula of forbidden width of chalcogenides of s- and sp-elements is obtained. It represents a sum of disintegration effects and difference between potentials of ionization of chalcogen atom and ns atomic orbital of s- and sp-elements.
DOCUMENT TYPE: Article
SOURCE: Scopus

Mustyatsa, O.N.
Physicochemical properties of molten mixtures based on Sb2S3
(2000) Rasplavy, (3), p. 80.
DOCUMENT TYPE: Article
SOURCE: Scopus

Mustyatsa, O.N., Zarubitskii, O.G., Kunilov, P.D., Vlasenko, G.G.
Physicochemical properties and electrolysis of antimony-sodium mattes
(1998) Russian Journal of Applied Chemistry, 71 (3), pp. 420-426.
ABSTRACT: Modes of smelting of various sulfide-oxide industrial antimony concentrates were studied to reveal the fundamental aspects of Pyrometallurgic processing of the concentrates into mattes and also the influence of various factors on the physicochemical properties of the resulting antimony-sodium mattes in various aggregative states. В© 1998 MAHK Hayka/Interperiodica Publishing.
REFERENCES: USSR Inventor's Certificate no. 285241Mel'nikov, S.M., (1977) Sur'ma (Antimony), , Moscow: Metallurgiya;
Mustyatsa, O.N., Vlasenko, G.G., Zarubitskii, O.G., (1991) Kompleksn. Ispol'z. Miner. Syr'ya, (2), pp. 48-51;
Mustyatsa, O.N., Electrochemical and Electrophysical Properties of Melts of Arsenic, Antimony, and Bismuth Chalcogenides (1970) Cand. Sci. Dissertation, , Kiev;
Mel'nik, N.I., Zinchenko, V.F., Mustyatsa, O.N., (1987) Kompleksnaya Pererabotka Mineral'nogo Syr'ya Metodami Shchelochnoi В· Metallurgii (Combined Processing of Mineral Resources by Alkaline Metallurgy), pp. 42-44., Alma-Ata: Nauka
DOCUMENT TYPE: Article
SOURCE: Scopus

Mustyatsa, O.N.
Physicochemical properties of fused mixtures of stibnite and oxygen-containing compounds of alkali-earth metals
(1998) Rasplavy, (2), pp. 76-83.
AFFILIATIONS: Ukrainskij Transportnyj Univ, Kiev, Ukraine
ABSTRACT: The fused systems of Sb2S3-MeO, Sb2S3-MeSO4, Sb2S3-MeCO3 (Me-Mg, Ca, Sr, Ba) are investigated by the methods of electric conductivity and electrolysis over a wide range of compositions and temperatures. The regularities of change in antimony yields as a function of current efficiency in electrolysis of fused salts are ascertained. The potentialities and concentration limits for formation of homogeneous materials in the process of antimony production are studied.
DOCUMENT TYPE: Article
SOURCE: Scopus

Mustyatsa, O.N.
Charge transfer in antimony sulphide-antimony oxide melts
(1997) Rasplavy, (1), pp. 55-64.
AFFILIATIONS: Ukrainskij Transportnyj Univ, Kiev, Ukraine
ABSTRACT: Quantitative investigation of relation for the portions of ionic and electron conductivity in sulfide-oxide antimony-containing melts is carried out by the methods of emf, voltammetry and electrolysis. The ion-covalent nature of chemical bond in the melt takes place. An influence of temperature and substitution of sulfur for oxygen, antimony for sodium as well as simultaneous cation-anion substitution of antimony for sodium and sulfur for complex oxygen-containing anion on this relation is determined.
DOCUMENT TYPE: Article
SOURCE: Scopus

Mustyatsa, O.N., Vlasenko, G.G., Zarubitskii, O.G.
Conductivity of antimony sulfide-sodium trisulfide melted mixtures
(1996) Russian Journal of Electrochemistry, 32 (3), pp. 331-336.
ABSTRACT: The Sb 2S 3-Na 2S 3 system is studied by the conductivity method within a wide range of temperatures and compositions. The total and ionic conductivity values of the salt mixtures and their temperature dependences are determined. The liquidus line for this system is plotted using the Оє = f(t) functional relationship for various specimens upon their transition from a liquid to a solid state. The conductivity isotherms correlate with the liquidus line and indicate the chemical interaction of components in molten state. The maximum ionic component of conductivity in the Sb 2S 3-Na 2S 3 system is observed at the equimolar component ratio, i.e., it corresponds to the NaSbS 3 formula. В© 1996 MAHK Hayka/Interperiodica Publishing.
REFERENCES: Mustyatsa, O.N., (1970) Cand. Sc. (Chem.) Dissertation, , Kiev: Inst. of General and Inorganic Chemistry, UkrSSR Acad. Sci;
Mustyatsa, O.N., (1989) Rasplavlennye Elektrolity (The Molten Electrolytes), 1, p. 174., Sverdlovsk: Ural Division, USSR Acad. Sci;
Mustyatsa, O.N., Nikitin, Ya.A., (1989) Rasplavlennye Elektrolity (The Molten Electrolytes), 1, p. 173., Sverdlovsk: Ural Division, USSR Acad. Sci;
Zagorovskii, G.M., (1979) Cand. Sc. (Chem.) Dissertation, , Kiev: Institute of General and Inorsanic Chemistry, UkrSSR Acad. Sci;
Mustyatsa, O.N., Zinchenko, V.F., Mel'nik, N.I., Il'chenko, I.A., Teterin, G.A., (1987) Ukr. Khim. Zh. (Russ. Ed.), 53, p. 793;
Velikanov, A.A., Mustyatsa, O.N., (1972) Izv. Vyssh. Uchebn. Zaved., Tsvetn. Metall., (2), p. 61;
Wagner, C., (1933) Z. Phys. Chem., 21, p. 25;
Karpachev, S.V., Pal'guev, S.F., (1960) Trudy Instituta Elektrokhimii UF AN SSSR "(Proc. of the Inst. of Electrochemistry, Ural Branch, USSR Acad. Sci.), (1), p. 79;
Okazaki, H., (1976) J. Phys. Soc. Jpn., 43, p. 213;
Gupta, N.K., Tischer, R.B., (1972) J. Electrochem. Soc., 119, p. 1083;
Samsonov, G.V., (1967) Khal'kogenidy (Svoistva, Melody Polucheniya i Primenenie) (Chalcogenides: Properties, Methods of Synthesis, and Application), , Kiev: Naukova Dumka;
Cleaver, B., (1983) The Sulphur Electrode, , New York: Academic;
Cleaver, B., Davies, A.J., (1973) Electrochim. Acta, 18, p. 733;
Delimarskii, Yu.K., (1978) Elektrokhimiya Ionnykh Rasplavov (The Electrochemistry of Ionic Melts), p. 28., Moscow: Metallurgiya;
Antipin, L.N., Vazhenin, S.F., (1964) Elektrokhimiya Rasplavlennykh Solei (The Electrochemistry of Molten Salts), p. 132., Moscow: GNTI;
Velikanov, A.A., (1971) Trudy Vsesoyuznoi Mezhvuzovskoi Nauchnoi Konferentsii po Teorii Pro-tsessov Tsvetnoi Metallurgii (Proc. of the All-Union Scientific Conference of Higher Schools on the Theory of Processes in Nonferrous Metallurgy), p. 318., Alma-Ata;
Lazarev, V.B., Berul, S.I., Salov, A.V., (1982) Troinye Poluprovodnikovye Soedineniya v Sisteniakh a I-B V-C VI (The Semiconducting Ternary Compounds in the a I-B V-C VI Systems), , Moscow: Nauka
DOCUMENT TYPE: Article
SOURCE: Scopus

Mustyatsa, O.N., Vlasenko, G.G., Zarubitskij, O.G.
Electric conductivity of molten Na2S-Sb2S3-Sb2O3 mixtures
(1994) Rasplavy, (2), pp. 92-95.
AFFILIATIONS: Inst Obshchej i Neorganicheskoj, Khimii AN Ukrainy, Kiev, Ukraine
ABSTRACT: With the sulfide-oxide nature of antimony metallurgical raw material in mind, the effect of sodium sulfide has been studied on the conductivity and melting temperature of the equimolar SbS3-Sb2O3 system over a wide temperature range including solid state at various constituent ratios. The temperature of the crystallization onset is obtained and the liquidus line is constructed for a pseudoternary system. The (Sb2S3-Sb2O3) - 20 mol.% Na2S is indicated to have antimony metal by pyroelectric treatment.
DOCUMENT TYPE: Article
SOURCE: Scopus

Mustyatsa, O.N., Kunilov, P.D., Velikanov, A.A., Dorofeev, G.K., Kolbin, N.A.
Reduction Smelting of Sodium Antimonate in Matte Melts. [VOSSTANOVITEL'NAYA PLAVKA ANTIMONATA NATRIYA V SHTEINOVYKH RASPLAVAKH.]
(1975) Tsvetnye Metally, (10), pp. 28-29.
ABSTRACT: A description is given of large-scale studies and industrial tests of the smelting of sodium antimonate in a mixture with a ferrous matte and a reducing agent. The extraction of antimony into the crude metal amounts to 90%. Optimal conditions for smelting sodium antimonate are determined which ensure higher technical and economic indices than existing methods of processing antimony raw material.
SOURCE: Scopus

Kunilov, P.D., Mustyatsa, O.N., Velikanov, A.A.
Reprocessing of Sublimates and Dusts from Antimony Production. [PERERABOTKA VOZGONOV I PYLEI SUR'MYANYKH PROIZVODSTV.]
(1975) Tsvetnye Metally, (9), pp. 26-27.
ABSTRACT: A technology for the reprocessing of wastes from antimony production is described which consists in reduction smelting of antimony-containing materials in matte melts. In this case carbon is used as the reducing agent, while the flux employed is a waste ferrous matte from pyrometallurgical conversion.
SOURCE: Scopus

 

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  • 3 недели спустя...

Чот не фига авторы не разговорчивые,или не особо оперативные. Или у них почта завалена такими просьбами. Но не сработало(((

А как считаете,как быстро автор может отреагировать на просьбу,и вообще,стоит-ли повторить письмо,или еще подождать?

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