kw.\*:("FUSED SALT ELECTROLYSIS")
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ON THE ELECTRODEPOSITION OF COHERENT GADOLINIUM DENDRITES FROM MOLTEN FLUORIDE ELECTROLYTESZWILLING G.1981; MONATSH. CHEM.; DDR; DA. 1981-01; VOL. 112; NO 1; PP. 33-41; BIBL. 17 REF.Article
MATHEMATICAL MODEL ON A MAGNESIUM ELECTROLYSE CELLKOROBOV MA.1983; CVETNYE METALLY; ISSN 0372-2929; SUN; DA. 1983; NO 5; PP. 53-55Article
SOME LAWS OF ELECTROLYSE REFINING IN MAGNESIUM PRODUCTION BY IRON COMPOUNDS REMOVALVUKOLOV VV; ZUEV NM; FRANTAS'EV NA et al.1981; CVET. MET.; ISSN 0372-2929; SUN; DA. 1981; NO 11; PP. 18-20; BIBL. 10 REF.Article
DISTRIBUTION OF THE ELECTRIC POTENTIAL INTO THE MELT IN AN INDUSTRIAL ELECTROLYTIC CELL FOR ALUMINIUM REFININGPOLYAKOV PV; GRON NL; SYSOEV AV et al.1981; CVET. MET.; ISSN 0372-2929; SUN; DA. 1981; NO 6; PP. 24-25; BIBL. 2 REF.Article
THE MECHANISMS OF TECHNICAL PARAMETERS EFFECT ON THE MAGNESIUM AND CHLORINE LOST DURING ELECTROLYSISDEVYATKIN VN; RYABUKHIN YU M; SHESTAKOV VM et al.1981; CVET. MET.; ISSN 0372-2929; SUN; DA. 1981; NO 7; PP. 63-65; BIBL. 13 REF.Article
MATHEMATICAL MODEL OF THE TEMPERATURE FIELD OF THE LOWER PART OF MAGNESIUM CELLGERASIMOV YU A; IVANOV SA; KONDUS AA et al.1983; CVETNYE METALLY; ISSN 0372-2929; SUN; DA. 1983; NO 2; PP. 55-57; BIBL. 4 REF.Article
NEW SETTING OF ELECTRODES IN DIAPHRAGMLESS ELECTROLYTIC CELLSMUZHZHAVLEV KD; KOLESNIKOV VA; FRANTAS EV NA et al.1982; CVET. MET.; ISSN 0372-2929; SUN; DA. 1982; NO 1; PP. 52-53Article
DIFFERENTIAL CURRENT EFFICIENCY OF ZINC AT CATHODIC REFINING OF LEAD-SILVER ALLOYS IN CHLORIDE MELTSZARUBITSKIJ OG; MELEKHIN VT; OMEL'CHUK AA et al.1981; UKR. KHIM. ZH.; UKR; DA. 1981-07; VOL. 47; NO 7; PP. 675-678; BIBL. 3 REF.Article
PRECIPITATION OF SOLID COMPOUNDS DURING ELECTROLYSIS OF CRYOLITE-ALUMINA MELTSHERSTAD O; KROHN C; OYE HA et al.1983; ALUMINIUM (DUESSELD.); ISSN 0002-6689; DEU; DA. 1983-03; VOL. 59; NO 3; PP. 200-206; BIBL. 22 REF.Article
PRODUCTION OF BISMUTH AND LEAD BY ELECTROLYSIS OF FUSED SALTSDELIMARSKIJ YU K; ZARUBITSKIJ OG.1981; UKR. KHIM. ZH.; UKR; DA. 1981-11; VOL. 47; NO 11; PP. 1138-1148; BIBL. 28 REF.Article
CURRENT EFFICIENCY IN ALUMINIUM ELECTROLYSISQUI Z; FONG N.1983; ALUMINIUM (DUESSELD.); ISSN 0002-6689; DEU; DA. 1983-04; VOL. 59; NO 4; PP. 277-280; BIBL. 7 REF.Article
NEW MATERIALS - NEW APPROACHES IN ALUMINIUM ELECTROLYSISKELLER R; JARRETT N.1983; ALUMINIUM (DUESSELD.); ISSN 0002-6689; DEU; DA. 1983-06; VOL. 59; NO 6; PP. 436-437; BIBL. 13 REF.Article
ENTWURF EINES GEGENLAUFOFENS ZUM BRENNEN VON GRAPHITELEKTRODEN = DESIGN OF A COUNTERFLOW FURNACE FOR BAKING GRAPHITE ELECTRODESRIEDEL R.1982; ALUMINIUM (DUESSELD.); DEU; DA. 1982-06; VOL. 58; NO 6; PP. 355-358Article
ENERGY SAVINGS IN ALCOA CARBON BAKING FURNACESRACUNAS BJ; YOUNG LL; PROCTOR WL et al.1981; LIGHT MET. AGE; USA; DA. 1981-12; VOL. 39; NO 11/12; PP. 32-33Article
ELECTRODEPOSITION OF A LITHIUM-CALCIUM ALLOY FROM A LITHIUM-CALCIUM NITRATE MELTPROTSENKO AV; KIRYUKHA AS.1980; ZH. PRIKL. KHIM.; SUN; DA. 1980-09; VOL. 53; NO 9; PP. 2130-2131; BIBL. 6 REF.Article
EQUILIBRIUM ELECTRODE POTENTIALS OF HAFNIUM AND ACTIVITY COEFFICIENTS OF ITS DICHLORIDE AND TETRACHLORIDE IN A POTASSIUM CHLORIDE MELTPUZANOVA TA; SMIRNOV MV.1980; ELEKTROKHIMIYA; SUN; DA. 1980-09; VOL. 16; NO 9; PP. 1397-1401; BIBL. 3 REF.Article
TRANSFER OF BISMUTH AND LEAD FROM CATHODE TO ANODE IN ELECTROLYZER WITH SEPARATED ELECTRODE SPACESZARUBITSKIJ OG; ZAKHARCHENKO NF.1980; UKR. KHIM. ZH.; UKR; DA. 1980-07; VOL. 46; NO 7; PP. 691-696; BIBL. 6 REF.Article
WHATS HAPPENING AT KITIMATRICH WJ.1981; LIGHT MET. AGE; USA; DA. 1981-12; VOL. 39; NO 11/12; PP. 14-16Article
Oh, Charlie, it is aluminium!:Next year will mark the centennial of Charles Martin Halĺs famous experiment in the woodshed of his parentś Ohio home = O Charly, es ist Aluminium!Light metal age. 1985, Vol 43, Num 5/6, pp 6-8, issn 0024-3345Article
Electrolytic production of magnesium: effect of current density = Production électrolytique du magnésium: influence de la densité de courantRAO, G. M.Journal of applied electrochemistry. 1986, Vol 16, Num 5, pp 775-780, issn 0021-891XArticle
Electrochemical deposition of aluminium on tungsten in cryolite based melts = Dépôt électrochimique de l'aluminium sur le tungstène dans des mélanges fondus à cryoliteDURUZ, J. J; LANDOLT, D.Journal of applied electrochemistry. 1985, Vol 15, Num 3, pp 393-398, issn 0021-891XArticle
Mécanisme de dissolution d'Al2O3 dans les bains de cryolitheNOGUCHI, F; NAKAMURA, T; UEDA, Y et al.Keikinzoku. 1983, Vol 33, Num 11, pp 660-669, issn 0451-5994Article
Etude du mécanisme réactionnel de réduction électrolytique de l'aluminium dans les mélanges NaCl-KCl-LiCl-LiF et NaCl-KCl-LiCl fondus à 450°C = Investigation of reaction mechanisms for electrolytic reduction of aluminium in NaCl-KCl-LiCl-LiF and NaCl-KCl-LiCl melts at 450 CCHRYSSOULAKIS, Y; KALOGEROPOULOU, S.Métaux. Corrosion industrie. 1984, Vol 59, Num 707-708, pp 241-245, issn 0026-1084Article
Chloruration de la bauxite en bain de sel comme milieu de réactionNANJO, M; KANAI, T; ITO, Y et al.Keikinzoku. 1984, Vol 34, Num 7, pp 382-388, issn 0451-5994Article
Consumption of anode carbon during aluminium electrolysis. Pt. 3 = Kohlenstoffverbrauch an der Anode bei der Aluminium-Schmelzflusselektrolyse. T. 3HOUSTON, G.J; ØYE, H.A.Aluminium (Düsseldorf). 1985, Vol 61, Num 6, pp 426-428, issn 0002-6689Article