| Viscosity of Melts of the System KF—K2MoO4—SiO2 |
240 |
– |
244 |
| M. Boča, R. Vasiljev, M. Kucharík, and V. Daněk |
Vol. 57, 4 |
| Surface Tension of Melts of the System KF—K2MoO4—SiO2 |
68 |
– |
72 |
| M. Boča, M. Kucharík, R. Vasiljev, and V. Daněk |
Vol. 57, 2 |
| Enthalpic Analysis of Potassium Heptafluorotantalate |
73 |
– |
77 |
| I. Nerád, E. Mikšíková, and V. Daněk |
Vol. 57, 2 |
| Density of Melts of the System KF—K2MoO4—SiO2 |
283 |
– |
287 |
| M. Chrenková, M. Boča, M. Kuchárik, and V. Daněk |
Vol. 56, 5 |
| Phase Diagram and Structure of Melts of the System CaO—TiO2—SiO2 |
241 |
– |
246 |
| V. Daněk and I. Nerád |
Vol. 56, 4 |
| Cryoscopy in Solvents with Dystectic Melting |
71 |
– |
76 |
| I. Proks, V. Daněk, M. Chrenková, F. Šimko, and Z. Pánek |
Vol. 56, 2 |
| Thermodynamic Analysis of Pseudobinary Subsystems of the System CaO—TiO2—SiO2 |
77 |
– |
83 |
| I. Nerád and V. Daněk |
Vol. 56, 2 |
| Cryoscopy in the System Na3AlF6-Fe2O3 |
269 |
– |
272 |
| F. Šimko and V. Daněk |
Vol. 55, 5 |
| Long-Termed Material Balance of Phosphorus in Aluminium Reduction Cells |
209 |
– |
216 |
| V. Daněk, M. Chrenková, A. Silný, M. Staš, and M. Koniar |
Vol. 55, 4 |
| Thermodynamic Equilibrium between Melt and Crystalline Phase
of a Compound AgBrwith Dystectic Melting Point.
III. Application to the Systems KF-K3TiF7 and KCl-K3TiF6Cl |
137 |
– |
141 |
| I. Proks and V. Daněk |
Vol. 55, 3 |
| Thermodynamic Equilibrium between Melt and Crystalline Phase of a Compound AqBr with Dystectic Melting Point. IV. Application to the Systems NaF—NaMgF3 and KF—KMgF3 |
142 |
– |
144 |
| I. Proks and V. Daněk |
Vol. 55, 3 |
| Thermodynamic Equilibrium between Melt and Crystalline Phase of a Compound AqBr with Dystectic Melting Point. II. Application to the Systems KF—K3FMo04 and KF—K3FW04 |
59 |
– |
66 |
| I. Proks, V. Daněk, L. Kosa, and K. Adamkovičová |
Vol. 55, 2 |
| Phase Diagram of the System KF—KCl—KBF4—K2TiF6 |
75 |
– |
80 |
| M. Chrenková, V. Danielik, A. Silný, and V. Daněk |
Vol. 55, 2 |
| Density of the Molten System KCl—KBF4 —K2TiF6 |
27 |
– |
31 |
| M. Chrenková, V. Daněk, and A. Silný |
Vol. 55, 1 |
| Density of the System LiF—KF—K2NbF7 |
272 |
– |
276 |
| M. Chrenková, V. Daněk, and A. Silný |
Vol. 54, 5 |
| Viscosity of Melts of the System LiF-KF-K2NbF7 |
277 |
– |
281 |
| D. K. Nguyen and V. Daněk |
Vol. 54, 5 |
| Surface Tension of the System LiF-KF-K2NbF7 |
197 |
– |
202 |
| K. D. Nguyen and V. Daněk |
Vol. 54, 4 |
| Surface Tension of Melts of the System KF—K2Mo04—B203 |
131 |
– |
136 |
| K. D. Nguyen and V. Daněk |
Vol. 54, 3 |
| Niobium Complexes in Fluoride Melts |
137 |
– |
143 |
| V. Van, J. Madejová, A. Silný, and V. Daněk |
Vol. 54, 3 |
| Thermodynamic Equilibrium between Melt and Crystalline Phase
of a Compound AqBr with Dystectic Melting Point
I. Theoretical Approach |
61 |
– |
65 |
| I. Proks, V. Daněk, L. Kosa, I. Nerád, and K. Adamkovičová |
Vol. 54, 2 |
| 3rd International Conference Solid State Chemistry '96 held in Bratislava, July 6-12, 1996 - Preface |
303 |
– |
303 |
| V. Danek and Lt. Nagy |
Vol. 51, 6B |
| Thermodynamic Analysis of the Molten System
KF—K2Mo04—B203 |
263 |
– |
267 |
| O. Patarák, V. Daněk, M. Chrenková, and A. Silný |
Vol. 51, 5 |
| The Effect of Electrolyte Composition on the Electrodeposition
of Molybdenum from KF—B203—K2Mo04 Melts.
1. Chronopotentiometry |
202 |
– |
207 |
| M. Makyta, T. A. Utigard, P. Zatko, A. Silný, and V. Daněk |
Vol. 51, 4 |
| Structure and Properties of the KF—KCl—KBF4 Melts |
69 |
– |
72 |
| V. Daněk, M. Chrenková, D. K. Nguyen, and K. Putyera |
Vol. 51, 2 |
| Viscosity of Melts of the System KCl—KBF4—K2TiF6 |
73 |
– |
77 |
| D. K. Nguyen and V. Daněk |
Vol. 51, 2 |
| Surface Tension of Melts of the System KF—KCl—KBF4 |
78 |
– |
83 |
| Ž. Lubyová, V. Daněk, and D. K. Nguyen |
Vol. 51, 2 |
| EUCHEM Conference on Molten Salts 1996 |
381 |
– |
382 |
| V. Daněk |
Vol. 50, 6 |
| 3rd International Conference on Solid State Chemistry 1996 |
317 |
– |
318 |
| V. Daněk |
Vol. 50, 5 |
| Dr. Ing. Edmund Kanclíř, DrSc. Seventy Years Old |
156 |
– |
156 |
| V. Daněk and Z. Pánek |
Vol. 50, 3 |
| The 70th Birthday of Ing. Ivo Proks, DrSc.
|
105 |
– |
106 |
| K. Adamkovičová and V. Daněk |
Vol. 50, 2 |
| Viscosity of the Molten System KF—KCl—K2TiF6 |
4 |
– |
7 |
| D. K. Nguyen and V. Daněk |
Vol. 50, 1 |
| Phase Diagram of the System KCl—KBF4—K2TiF6 |
167 |
– |
172 |
| M. Chrenková, O. Patarák, and V. Daněk |
Vol. 49, 4 |
| Control Mechanism for Alumina Dissolution in Cryolite Melts |
59 |
– |
63 |
| Ž. Lubyová and V. Daněk |
Vol. 49, 2 |
| Viscosity of the System KF—KCl—KBF4 |
64 |
– |
67 |
| V. Daněk and D. K. Nguyen |
Vol. 49, 2 |
| Synthesis of BaFe12019 Powders in Molten Alkali Metal Chlorides |
245 |
– |
247 |
| V. Daněk and Ž. Lubyová |
Vol. 48, 4 |
| Thermodynamic Calculation of Phase Diagrams of Systems in which One Component Undergoes Thermal Dissociation |
7 |
– |
10 |
| V. Daněk and I. Proks |
Vol. 48, 1 |
| Structure of the Melts of the System KF—K2Mo04 |
339 |
– |
341 |
| V. Daněk and M. Chrenková |
Vol. 47, 6 |
| Phase Diagram of the KF—K2Mo04—B203 System |
342 |
– |
345 |
| O. Patarák, Z. Jantáková, and V. Daněk |
Vol. 47, 6 |
| Densities of Melts of the System LiF-KF-B2O3-TiO2 |
378 |
– |
381 |
| M. Chrenkova, V. Danek, and A. Silny |
Vol. 46, 6 |
| Phase Equilibria in the System LiF-KF-B2O3-TiO2 |
222 |
– |
225 |
| M. Chrenková and V. Daněk |
Vol. 46, 4 |
| Thermal Dissociation of Molten Complex Compounds Me3XF7 (Me = Li, Na, K, X = Ti, Zr, Hf) |
161 |
– |
166 |
| V. Daněk and R. Cekovskyý |
Vol. 46, 3 |
| Phase Diagram of the System LiF—B203 |
167 |
– |
169 |
| M. Chrenková and V. Daněk |
Vol. 46, 3 |
| Phase Diagram of the System KBF4-KF-KCl |
91 |
– |
94 |
| O. Patarák and V. Daněk |
Vol. 46, 2 |
| In Memoriam Associate Professor Ing. Kamil Matiašovský, DrSc. |
70 |
– |
70 |
| V. Daněk |
Vol. 46, 1 |
| Electrical-conductivity of the melts of the system KF-KCl -KBF4 |
739 |
– |
744 |
| M. Chrenková, M. Hura, and V. Daněk |
Vol. 45, 6 |
| Dissociation model of the electrical-conductivity of molten salt mixtures. 6. Systems containing bivalent cation |
457 |
– |
461 |
| M. Chrenková, M. Hura, and V. Daněk |
Vol. 45, 4 |
| Dissociation model of the electrical-conductivity of molten salt mixtures. 5. Systems containing trivalent cations |
177 |
– |
185 |
| V. Daněk and M. Chrenková |
Vol. 45, 2 |
| Volume properties of molten KF-KCl-KBF4 system |
213 |
– |
219 |
| M. Chrenková and V. Daněk |
Vol. 45, 2 |
| Associate Professor Ing. Kamil Matiašovský, DrSc. Sixty Years Old |
287 |
– |
288 |
| V. Daněk and P. Fellner |
Vol. 45, 2 |
| Dissociation model of the electrical conductivity of molten-salt mixtures. 4. Binary reciprocal univalent systems |
47 |
– |
52 |
| V. Daněk, M. Chrenková, and M. Hura |
Vol. 45, 1 |
| Fusibility and structure of the NaF-rich melts in the NaF-NaAlSi3O8 and NaF-KAlSi3O8 systems |
685 |
– |
691 |
| K. Grjotheim, V. Daněk, K. Matiašovský, and J. Stubergh |
Vol. 44, 5 |
| Dissociation model of the electrical-conductivity of molten-salt mixtures. 3. Ternary univalent systems with common ion |
535 |
– |
541 |
| V. Daněk, M. Hura, and M. Chrenková |
Vol. 44, 4 |
| Dissociation model of the electrical-conductivity of molten-salt mixtures .2. Binary univalent systems with common ion |
329 |
– |
337 |
| M. Chrenková and V. Daněk |
Vol. 44, 3 |
| Dissociation model of the electrical conductivity of molten salt mixtures. 1. Theory of univalent electrolytes |
25 |
– |
34 |
| V. Daněk |
Vol. 43, 1 |
| The electrical conductance and the structure of the NaF AlF3 melts |
743 |
– |
751 |
| J. Šiška, V. Daněk, K. Matiašovský, and A. Silný |
Vol. 42, 6 |
| Volume properties of the melts of the system KF-KCl-K2TiF6 |
753 |
– |
761 |
| V. Daněk, J. Šiška, and K. Matiašovský |
Vol. 42, 6 |
| Conductivity of melts in the system CaO-FeO-Fe2O3-SiO2 |
215 |
– |
223 |
| V. Daněk, T. Ličko, and Z. Pánek |
Vol. 40, 2 |
| Densities of melts in the system CaO-FeO-Fe2O3-SiO2 |
599 |
– |
605 |
| T. Ličko, V. Daněk, and Z. Pánek |
Vol. 39, 5 |
| Surface-adsorption of SiO2 in melts of the system CaO-FeO-Fe2O3-SiO2 |
459 |
– |
465 |
| V. Daněk, T. Ličko, and Z. Pánek |
Vol. 39, 4 |
| Calculation of liquidus surfaces of CaSiO3 in the CaO—FeO—SiO2 and CaO—Fe2O3—SiO2 systems |
379 |
– |
386 |
| V. Daněk |
Vol. 38, 3 |
| Electrical conductance of molten silicates. Application of the free volume theory |
349 |
– |
355 |
| V. Daněk and T. Ličko |
Vol. 37, 3 |
| Surface adsorption of silicon dioxide in molten silicate systems |
179 |
– |
184 |
| V. Daněk and T. Ličko |
Vol. 36, 2 |
| Phase diagram of the ternary system KBF4—NaCl—KCl |
841 |
– |
846 |
| V. Daněk, I. Votava, M. Chrenková-Paučírová, and K. Matiašovský |
Vol. 30, 6 |
| Reactions of potassium tetrafluoroborate in molten alkali chlorides |
377 |
– |
383 |
| V. Daněk, I. Votava, and K. Matiašovský |
Vol. 30, 3 |
| Calculation of transport properties of molten salts using a double hard core model |
724 |
– |
727 |
| P. Fellner and V. Daněk |
Vol. 28, 6 |
| Study of the system V205—Na20. II. Physicochemical properties of the molten V205—NaV03 mixtures |
728 |
– |
732 |
| V. Daněk, I. Votava, K. Matiašovský, and J. Balajka |
Vol. 28, 6 |
| Electrical conductivity of molten binary Na3AlF6—NaCl and Na3AlF6—BaCl2 mixtures |
742 |
– |
747 |
| K. Matiašovský and V. Daněk |
Vol. 27, 6 |
| Study of the system V205—Na20. I. Phase diagram of the system V205-NaV03 |
748 |
– |
751 |
| V. Daněk, J. Balajka, and K. Matiašovský |
Vol. 27, 6 |
| Physico-Chemical Properties of the System Na3AlF6—NaCl—Ti02 |
253 |
– |
258 |
| T. P. Madhavan, K. Matiašovský, and V. Daněk |
Vol. 25, 4 |
| Electrical conductivity of fused salts in the lithium fluoride-aluminum fluoride and lithium fluoride-sodium aluminum fluoride systems |
641 |
– |
647 |
| V. Daněk, M. Malinovský, and K. Matiašovský |
Vol. 22, 9 |
| Method for measuring electrical conductivity in molten fluorides |
707 |
– |
714 |
| V. Daněk, M. Malinovský, and K. Matiašovský |
Vol. 22, 9 |
| Electrical conductivity of the melts of the Na3AlF6-Li3AlF6 system |
832 |
– |
838 |
| V. Daněk, J. Novák, and M. Malinovský |
Vol. 21, 11 |
| The application of microanalysis for the measurement of critical current density at the electrolysis of cryolite fusions |
211 |
– |
216 |
| K. Matiašovský, V. Daněk, and M. Malinovský |
Vol. 17, 3 |
