Поисковый запрос: (<.>K=эЛЕКТРОПРОВОДНОСТЬ<.>) |
Общее количество найденных документов : 238
Показаны документы с 1 по 20 |
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1.
| Abraham M. Активационные параметры электропроводности смесей нитраты-вода при переходе от расплавов соответствующих солей до их разбавленных растворов/M. Abraham, Ziogas I. Abraham M.-C. // Electrochim. Acta, 1996. т.41, 6, 903-909
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2.
| Anne-Laure Rollet Structural effects on the electrical conductivity of molten fluorides: Comparison between LiF–YF3 and LiF–NaF–ZrF4 /Anne-Laure Rollet, Mathieu Salanne, Henri Groult // Journal of Fluorine Chemistry, 1912. т.Vol. 134.-С.44-48.
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| Balaraju J.N. Studies of low temperature Al electrolysis using composite anodes in NaF-KCl bath electrolyte/J. N. Balaraju, Sen U. Ananth V. // J. Electrochem. Soc, 1995. т.142, 2, 439-444
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4.
| Berchiesi G. Electrolyte-acetamide molten mixtures/G. Berchiesi, Rafaiani G. Angelis M. // J. Mol. Liq, 1992. т.51, 1-2, 11-38
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5.
| Constantin N. Cereetari privind caracteristicile fisico-chimice ale zgurior de la elalirarea ferroaliajelor en mangan/N. Constantin, Rusu E. Nicolae M. // Metallurgia, 1992. т.44, 3, 17-18
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6.
| Constantinescu M. Удельная проводимость расплавов в системе K2O-PbBO-SiO2/M. Constantinescu, Vuap C. Jitianu G. // Glass Technol., 1997. т.38, 2, 62-64
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7.
| Deki S. The electrical conductivity of solid /melt coexisting systems/S. Deki, Takase M. Taira M. // Proc. - Electrochem. Soc, 1994. т.94, 13, 203-210
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8.
| Effect of KCl and CsCl on the Electrical Conductivity of Molten LiF–KBr at the Critical Composition/V. P. Stepanov , L. M. Babushkina , S. I. Dokashenko , D. S. Peshkin // Journal of Chemical & Engineering Data , 2012. т.Vol. 57,N № 8.-С.2309-2312.
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9.
| Effect of гамма-LiAlO2 powder on ionic conductivity of coexisting single alkali carbonates/M. Mizuhata, A. B. Beleke [и др.] // Electrochimica Acta , 2007. т.Vol. 53,N № 1.-С.71-78
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10.
| Electrical Conductivity of LiCl–KCl–CsCl Melts/Jinze Li, Bingliang Gao, Wenting Chen, Chengyuan Liu, Zhongning Shi, Xianwei Hu, Zhaowen Wang // Journal of Chemical Engineering Data, 2016. т.Vol. 61,N № 4.-С.1449-1453
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11.
| Electrical Conductivity of Molten Cobalt Dibromide + Potassium Bromide Mixtures/A. Wojakowska [et al.] // Journal of Chemical Engineering Data, 2006. т.V. 51,N N 4.-С.1256 - 1260
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12.
| Electrical Conductivity of Molten Electrolytes with a Common Cation/A. Redkin [и др.] // Journal of the Electrochemical Society, 2011. т.Vol. 158,N № 12.-С.F179-F182
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13.
| Electrical Conductivity of Molten Fluoride–Chloride Electrolytes Containing K2SiF6 and SiO2/A. A. Apisarov, A. A. Redkin, Y. P. Zaikov, O. V. Chemezov, A. V. Isakov // Journal of Chemical & Engineering Data , 2012. т.Vol. 56,N № 12.-С.4733-4735.
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14.
| Electrical Conductivity of Molten Li2CO3–X2CO3 (X: Na, K, Rb, and Cs) and Na2CO3–Z2CO3 (Z: K, Rb, and Cs)/Toshikatsu Kojima [и др.] // Journal of the Electrochemical Society, 2007. т.Vol. 154,N № 12.-С.F222-F230
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15.
| Electrical conductivity of molten mixtures of potassium and sodium fluorides with calcium fluoride /A. Redkin, Yu. Zaikov, P. Tingaev, S. Istomin, V. Ryabov // Ionics, 2013. т.Vol. 19,N № 12.-С.. 1949-1954.
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16.
| Electronic properties of molten CuSbTe2/K. A. Shafar [et al.] // Fizika, 1991. т.V. 23,N N 4.-С.317 - 323
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17.
| Elsayed S.N. Electrical Properties of AgSbTe2 in the Solid and Liquid States/S. N. Elsayed, Abou El Ela A. H. Abdelghany A. // Phys. Chem. Liq, 1994. т.28, 3, 165-169
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18.
| Emmanuel I. Non-ideal change of electrical conductivity on solidification and remelting of salt eutectics/I. Emmanuel, Eweka Eweka, H. Kerridge // Solid State Ionics, 2006. т.V. 177,N N. 15 - 16.-С.1245 - 1250
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19.
| Fellner P. Удельная электропроводность низкоплавких ванн для электролиза алюминия. Система Na3AlF6-Li3AlF6-AlF3 и влияние добавок Al2O3, CaF2 и MgF2/P. Fellner, Sterten A. Midtlyng S. // J. Appl. Electrochem, 1993. т.23, 1, 78-81
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20.
| Folkmann G.E. Complex formation in pyrosulfate melts. 4. Density, potentiometry, calorimetry and conductivity of systems Cs2S2O7-V2O5, Cs2S2O7-Cs2SO4 and Cs2S2O7-Cs2-SO4-V2O5 in the temperatire range 340-5500C/G. E. Folkmann, Fehrmann R. Hatem G. // Inorg. Chem, 1993. т.32, 9, 1559-1565
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