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1.
Five-component reciprocal systems Na,K∥Cl,CO3,MoO4,WO4 and Na,K∥F,CO3,MO4,WO4 have been studied by differential thermal analysis (DTA) and X-ray powder diffraction (XPD). The systems have been triangulated to phase simplexes. The main reciprocal and complex-formation reactions have been revealed. The stability of [Na,K]2CO3, Na2[Mo,W]O4, and K2[Mo,W]O4 binary solid solutions and the nonexistence of quintuple invariant points in the title systems have been verified.  相似文献   

2.
Solubility in the Na2MoO4-Na2SO4-H2O system was studied using isothermal saturation at 5–100°C. The boundaries of crystallization fields were determined for sodium sulfate and sodium molybdate. Solid solutions were not observed within the range of the temperatures studied. The density, refractive index, and dynamic viscosity of the saturated solutions of the system were determined, and these data were used to calculate the molar volume, kinematic viscosity, and apparent molar volume of the sum of salts in these solutions. All property isotherms of solutions are in a strict correlation with the solubility in the system; this correlation is represented as an isobaric-isothermal diagram.  相似文献   

3.
The subsolidus region of the Ag2MoO4-MgMoO4-Al2(MoO4)3 ternary salt system has been studied by X-ray phase analysis. The formation of new compounds Ag1 ? x Mg1 ? x Al1 + x (MoO4)3 (0 ≤ x ≤ 0.4) and AgMg3Al(MoO4)5 has been determined. The Ag1 ? x Mg1 ? x Al1 + x (MoO4)3 variable-composition phase is related to the NASICON type structure (space group R \(\bar 3\) c). AgMg3Al(MoO4)5 is isostructural to sodium magnesium indium molybdate of the same formula unit and crystallizes in triclinic system (space group P \(\bar 1\), Z = 2) with the following unit cell parameters: a = 9.295(7) Å, b = 17.619(2) Å, c = 6.8570(7) Å, α = 87.420(9)°, β = 101.109(9)°, γ = 91.847(9)°. The compounds Ag1 ? x Mg1 ? x Al1 + x (MoO4)3 and AgMg3Al(MoO4)5 are thermally stable up to 790 and 820°C, respectively.  相似文献   

4.
The four-component reciprocal system Na,K∥Cl,CO3,WO4 has been studied using differential thermal analysis in combination with projective and differential geometry, the a priori prediction of the crystallization path (CP), and a computation-experimental method. The concentration and temperature coordinates of the four quaternary invariant points (IVPs) existing in the system have been determined.  相似文献   

5.
A ternary salt system Rb2MoO4-Eu2(MoO4)3-Hf(MoO4)2 was studied in the subsolidus area by X-ray phase analysis. A novel ternary molybdate, Rb4.98Eu0.86Hf1.11(MoO4)6, formed in the system. The Rb4.98Eu0.86Hf1.11(MoO4)6 rubidium-europium-hafnium molybdate crystals were grown by solution-melt crystallization under the spontaneous nucleation conditions. The structure and composition of this compound were refined by single crystal X-ray diffraction (X8 APEX automated diffractometer, MoK α radiation, 1753 F(hkl), R = 0.0183). The crystals are trigonal, a = b = 10.7264(1) Å, c = 38.6130(8) Å, V = 3847.44(9) Å3, Z = 6, space group R \(\bar 3\) c. The three-dimensional mixed framework of the structure comprises Mo tetrahedra and two types of octahedra, (Eu,Hf)O6 and HfO6. The large cavities of the framework include two types of the rubidium atom. The distribution of the Eu3+ and Hf4+ cations over two crystallographic positions was refined.  相似文献   

6.
Phase equilibria in the LiF-LiBr-LiVO3-Li2MoO4 four-component system were studied using differential thermal analysis (DTA). The eutectic composition (mol %) was determined as LiF, 19.3; LiBr, 45.0; LiVO3, 32.7, Li2MoO4, 3.0 with a melting temperature of 394°C.  相似文献   

7.
A computation-and-experiment technique and differential thermal analysis were used to study the Li‖F,CO3,MoO4 three-component system and Li‖F,Cl,CO3,MoO4 four-component system for the first time and to restudy the Li‖Cl,CO3,MoO4 and Li‖F,Cl,MoO4 three-component systems.  相似文献   

8.
Phase equilibria in the three-component systems LiBr-LiVO3-Li2MoO4 and LiBr-Li2SO4-Li2MoO4 have been studied using differential thermal analysis (DTA). Eutectic compositions have been determined (mol %): in the system LiBr-LiVO3-Li2MoO4, 56.0 LiBr, 22.0 LiVO3, and 22.0 Li2MoO4 with a melting temperature of 413°C; and in the system LiBr-Li2SO4-Li2MoO4, 65.0 LiBr, 14.0 Li2SO4, and 21.0 Li2MoO4 with a melting temperature of 421°C. Phase fields have been demarcated.  相似文献   

9.
Phase equilibria in the LiF-LiCl-LiVO3-Li2SO4-Li2MoO4 system have been studied by differential thermal analysis. The eutectic composition has been determined as follows (mol %): LiF, 17.4; LiCl, 42.0; LiVO3, 17.4; Li2SO4, 11.6; and Li2MoO4, 11.6, with the melting temperature equal to 363°C and the enthalpy of melting equal to (284 ± 7) kJ/kg.  相似文献   

10.
Phase relationships in the subsolidus region of the system Na2MoO4-MnMoO4-Cr2(MoO4)3 were studied by means of X-ray diffraction and differential-thermal analyses. The possibility of obtaining a variablecomposition phase Na1?x Mn1?x Cr1+x (MoO4)3 (0 ≤ x ≤ 0.5) and ternary molybdate NaMn3Cr(MoO4)5 was examined. The temperature dependence of the conductivity of the phase Na1?x Mn1?x Cr1+x (MoO4)3 was analyzed.  相似文献   

11.
The Tl2MoO4-Ln2(MoO4)3-Hf(MoO4)2 systems where Ln = La-Lu were studied in the subsolidus region using X-ray powder diffraction. Quasi-binary joins were revealed, and triangulation carried out. New ternary molybdates were prepared: Tl5LnHf(MoO4)6 (5: 1: 2) for Ln = Ce-Ho, Tl5LnHf(MoO4)6 (5: 1: 2) for Ln = Er-Lu, TlLnHf0.5(MoO4)3 (1: 1: 1) for Ln = Ce-Nd, and Tl2LnHf2(MoO4)6.5 (2: 1: 4) for Ln = Ce-Lu. The crystallographic parameters of Tl5LnHf(MoO4)6 (5: 1: 2) compounds for Ln = Er-Lu were determined.  相似文献   

12.
The four-component system LiF-K2WO4-CaF2-BaWO4 has been studied for the first time using physicochemical methods. The a priori prediction of the phase complex revealed the phase tree and crystallization path of the system. The prediction was verified experimentally, by construction of a topologic model of the phase diagram, and the solution of the equations of the general law of liquidus-surface formation. The density has been measured, and the heat-storage properties of eutectic mixtures have been estimated.  相似文献   

13.
The NaOH-Na2SO4-Na2S system has been studied. Refined phase diagrams have been designed for the boundary binaries and for four radiating sections, as well as the liquidus surface for the ternary system.  相似文献   

14.
The binary systems NaBr-Na2MoO4 and NaBr-Na3ClMoO4 and the ternary system NaCl-NaBr-Na2MoO4 have been studied using physicochemical methods (DTA and powder X-ray diffraction). The compositions, melting points, and heats of phase transitions have been determined for three invariant points. The liquidus surface of the ternary system consists of the fields of sodium molybdate, Na3ClMoO4, and sodium chloride and bromide solid solutions. The eutectics melt at 531, 612, and 524°C; the respective heats of phase transitions are 149.27, 167.55, and 215.38 J/g.  相似文献   

15.
The 950°C isothermal section of the InPO4-Na3PO4-Li3PO4 ternary system was studied and constructed; one-, two, and three-phase fields are outlined. Five solid-solution regions exist in the system: solid solutions based on the complex phosphate LiNa5(PO4)2 (olympite structure), the indium ion stabilized high-temperature Na3PO4 phase (Na3(1 − x)In x (PO4); space group Fm [`3]\bar 3 m), the complex phosphate Na3In2(PO4)3, and the α and β phases of the compound Li3In2(PO4)3. A narrow region of melt was found in the vicinity of eutectic equilibria. All the phases detected in the system are derivatives of phases existing in the binary subsystems. Isovalent substitution of lithium for sodium in Na3In2(PO4)3 leads to a significant increase in the region of a NASICON-like solid solution.  相似文献   

16.
We have shown that WO3 and MoO3 with Pt or Pd additives exhibit high catalytic activity in the reaction of H2 oxidation. In the temperature range 313 K to 353 K, we have studied the kinetic behavior of the reaction on 0.1 mass % Pt(Pd)/WO3 and Pt(Pd)/MoO3 samples. We have established that the kinetics of H2 oxidation on these catalysts correspond to an Eley - Rideal mechanism. __________ Translated from Teoreticheskaya i Eksperimental'naya Khimiya, Vol. 41, No. 5, pp. 313–316, September–October, 2005.  相似文献   

17.
WO3 and WO3:P (5 mol% H3PO4) thin films were prepared using the sol-gel route and the electrochromic properties of the films were investigated using in situ spectroelectrochemical methods. The measurements were performed in propylene carbonate solution with 0.1 M LiClO4 as electrolyte. During the cathodic polarization at –0.8 V a blue coloration is observed with a reversible variation between 14% and 84% of the transmittance at λ=633 nm. The kinetics for the bleaching process is faster for the WO3:P film than for the undoped WO3 film. Electronic Publication  相似文献   

18.
For the first time ever it is demonstrated in this work that, in spontaneous conditions and following the imposition of an electric field, mutual penetration of components of WO3 and Me2(WO4)3 occurs at heterophase interfaces WO3|Me2(WO4)3 where Me = In, Eu, or Sc. Tungstic oxide WO3 is pulled onto the inner surface of ceramic Me2(WO4)3 and, in turn, components of Me2(WO4)3 penetrate onto the surface of grains of ceramic WO3, which is confirmed by the method of x-ray—fluorescence analysis. Data concerning the conductivity and transport numbers of Eu2(WO4)3 and a composite on its basis, which was manufactured as a result the electrosurface transport of WO3, are obtained for the first time ever. With allowance made for the data on the O2? character of the ionic conduction in MeWO4 and Eu2(WO4)3 it is concluded that the type of ionic carriers in tungstates (Me n+)2/n [WO4] makes no impact on the mechanism of spontaneous and field-induced processes that are developing at the (Me n+)2/n [WO4]|WO3 interfaces.  相似文献   

19.
The title compound (disodium dipotassium copper(II) tris-[molybdate (VI)]) is prepared by form melt and characterized by single crystal X-ray diffraction and UV-vis spectroscopy. It crystallizes in the triclinic space group P-1 with a = 7.4946(8) Å, b = 9.3428(9) Å, c = 9.3619(9) Å, α = 92.591(7)°, β = 105.247(9)°, γ = 105.496(9)°, V = 604.7 Å3, and Z = 2. Its structure is isotypic with that of Na4Mn(MoO4)3. It is formed by Cu2O10 distorted bi-octahedral dimers linked by two bridging bidentate Mo2O4 tetrahedra and, additionally, two monodentate Mo1O4 tetrahedra to form Cu2Mo4O20 units. These units are linked by the insertion of Mo3O4 tetrahedra to build infinite ribbons disposed along the c axis. All of these ribbons form a one-dimensional framework. Both K1 and K3 cations are located in the inversion center, and all the other atoms are at general positions. The structure model is supported by the bond valence sum (BVS) and charge distribution CHARDI methods. The Cu2+ cations adopt the [4+2] CuO6 Jahn-Teller distortion giving rise to an intense dd transition in the UV-vis absorption spectra.  相似文献   

20.
Results of a solid-phase synthesis of polycrystalline sodium-bismuth tungstate NaBi(WO4)2 from NaNO3, Na2WO4, Bi2O3, and WO3 are presented. The optimal synthesis conditions are determined and a technological flow chart for synthesis of a single-phase product is suggested.  相似文献   

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