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1.
Previous studies on glass formation involving GeO2 with Bi2 O3 , TI2 O, and PbO were extended by the use of Sb2 O3 . Wide areas of glass formation occur in the systems GeO2 -PbO-Sb2 O3 and GeO2 -Bi2 O3 -Sb2 O3 at all but the lowest GeO2 contents; the region of single-phase glasses in the system GeO2 -Tl2 O-Sb2 O3 is severely restricted. Glasses were examined by powder X-ray diffraction, differential thermal analysis, thermomechanical analysis, and Archimedes'technique to obtain glass transition and crystallization exotherm temperatures, thermal expansion coefficients, and densities; these properties are presented in diagrams for the GeO2 -Sb2 O3 binary and for two ternary systems. Based on calculated values of Δo ,the waveleneth for zero material dispersion. and dM/dΔ . the material disiersion slope at Δo , compositions in these systems may be useful for the construction of ultralow-loss optical waveguides in the 3 to 4 μm region. 相似文献
2.
Mohsen Mahmoudysepehr Vahak K. Marghussian 《Journal of the American Ceramic Society》2009,92(7):1540-1546
Zirconolite (CaZrTi2 O7 ) is a mineral that has a high containment capacity for actinides and lanthanides and is considered to be a good candidate for the immobilization of radioactive wastes. The glass–ceramic technique seems to be a very suitable and convenient method to produce zirconolite crystals by precipitating them in a specific glass matrix. In this study, development of a new zirconolite-based glass–ceramic belonging to SiO2 –PbO–CaO–ZrO2 –TiO2 –(B2 O3 –K2 O) system was investigated. The presence of PbO, together with B2 O3 and K2 O, allowed the preparation of a X-ray diffraction (XRD) amorphous glass with a relatively high concentration of ZrO2 and TiO2 , which was successfully converted to a glass–ceramic containing 34 wt% of zirconolite after heating at 770°C for 4 h. Differential thermal analysis, XRD, scanning electron microscope, and energy dispersive X-ray spectroscopy were used to determine the crystallization conditions, identify the crystallized phases, determine their compositions and quantities and observe and analyze the microstructures. The zirconolite crystals showed a platelet morphology with a monoclinic structure characterized by a =1.246 nm, b =0.7193 nm, c =1.128 nm, and β=100.508°. 相似文献
3.
Properties of glasses in the system Y2 O3 –Al2 O3 –SiO2 containing Na2 O and ZrO2 were investigated. The difference between the thermal expansion coefficients (Δα) at temperatures above T g and those below T g , microhardness, density, and chemical durability were measured in relation to the Al2 O3 /Y2 O3 molar ratio. These glasses were found to have a smaller value of Δα than that of a commercial coating glass. 相似文献
4.
E. F. RIEBLING 《Journal of the American Ceramic Society》1974,57(9):373-377
Ternary Na2 O.Sb2 O3 .GeO2 glasses (with various [Na]/[Na + Sb] ratios) that contained ≥65 mol% GeO2 were prepared. Their densities (volumes), refractive indices, and infrared spectra were determined and their colors noted. The ternary glasses with ≥88 mol% GeO2 exhibit nearly additive volumes, refractivities, and frequencies for the main Ge-O vibration. Ternary glasses with lesser amounts of GeO2 exhibit a variety of behaviors, depending on the [Na]/[Na + Sb] ratio. Small amounts of Sb2 O3 cause significant volume and refraction deviations, as well as changes in νGe-O , that can be associated with gradual elimination of GeO6 octahedra. All the information supports a model for the glasses with 65 to 88 mol% GeO2 that involves a degree of depolymerization that is greater when Na2 O and Sb2 O3 are present together than when either is present alone. 相似文献
5.
Xian Feng Setsuhisa Tanabe Teiichi Hanada 《Journal of the American Ceramic Society》2001,84(1):165-171
The thermal stability and spectroscopic properties of Er2 O3 -doped TeO2 –GeO2 –ZnO–Na2 O–Y2 O3 glasses for 1.5 μm fiber amplifiers were investigated. The thermal stability of the 75TeO2 ·20ZnO· 5Na2 O glass was improved by introducing GeO2 and Y2 O3 . The radiative transition and the nonradiative transition have a dominant influence on the 4 I13/2 level lifetime of Er3+ in high- and low-GeO2 regions, respectively. Adding Y2 O3 increases the 4 I13/2 level lifetime of Er3+ significantly. The Judd–Ofelt (J-O) parameter Ω6 shows a strong correlation with the 1.5 μm emission bandwidth; and the larger the Ω6 , the wider the bandwidth. 相似文献
6.
E. F. RIEBLING P. E. BLASZYK D. W. SMITH 《Journal of the American Ceramic Society》1967,50(12):641-647
Density and viscosity results are presented for ternary Na2 O·GeO2 ·B2 O3 melts (∼600° to 1300°C) and glasses containing as much as 35 mole % Na2 O. Synthetic partial molar volume models indicate a fairly broad stability region for BO4 tetrahedra in the B2 O3 -rich melts. Similar models for GeO2 -rich melts reveal a more limited stability region for GeO6 octahedra. The expansion coefficient contours and viscosity isotherms confirm the volume-based conclusions for the liquid state. The high-temperature volume models were used to develop glass volume models that agree to within several percent of experiment. It has been concluded that the melts and glasses possess similar structures. The relatively greater compositional stability of GeO6 octahedra in the presence of B2 O3 (compared to Al2 O3 ) can be related to the smaller average number of oxygens around boron (III), at a fixed O/Ge ratio, compared to aluminum (III). Evidence is presented for a slight decrease of the thermal stability of GeO6 octahedra in the GeO2 -rich melts above about 1000°C. 相似文献
7.
The occurrence of glass in the three binary and one ternary oxide systems containing Ge, Bi, and Tl was studied by air- and water-quenching melted samples. Bulk glass occurred widely in these systems and was obtained with as little as 10 mol% GeO2 , combined with 68 mol% BiO1.5 and 22 mol% TIO0.5 . Some glass occurred in all compositions except those with the highest Bi2 O3 or TI2 O contents. Glass specimens were studied by differential thermal analysis to yield glass transition and crystallization exotherm temperatures; the thermal expansion coefficients and densities were also measured. Diagrams are presented to show the variation of these properties as well as λ0 , the wavelength for zero material dispersion, in the binary and ternary systems. Based on these data, it is demonstrated that ultralow-loss optical waveguides can be constructed in the 3-3.5-μm regionb. 相似文献
8.
R. A. EPPLER 《Journal of the American Ceramic Society》1963,46(2):97-101
The stability of the vitreous state in the lithium metasilicate region of the system Li2 O–Al2 O3 –SiO2 was found to be a function of the concentration of lithia. The higher the lithia content, the less stable was the glass. The devitrification of glasses in this system was studied. In addition to the phases present at or near the liquidus, it was found that the β -eucryptite– β -quartz solid solution phase was metastable over most of the region. The Li2 O–SiO2 , β -Li2 O–Al2 O3 –4SiO2 solid solution, β -Li2 O–Al2 O3 –2SiO2 solid solution triple point was estimated to be near 62.5% SiO2 , 17% Al2 O3 , and 20.5% Li2 O (by weight). The thermal expansions of bodies in this region were measured and the values obtained are explained in terms of the phases present. 相似文献
9.
MADELEINE H. WARZEE MARCEL MAURICE FRANZ HALLA WALTER R. RUSTON 《Journal of the American Ceramic Society》1965,48(1):15-17
In the binary system PbO–Laz O3 only one compound, 4PbO.La2 O3 , exists; it is flanked by two eutectics. The structure of the compound, although of lower symmetry, is intimately related to the C modification of the rare earths. Below 800° to 1000°C, metastable solid solutions are formed from oxide mixtures coprecipitated from mixed solutions of the nitrates, the cubic parameter a = 5.66 A, if extrapolated to pure La2 O3 , corresponding to half the a parameter of the C form of La2 O3 . The solid solutions existing between the compositions La2 O3 –2Pb0 and pure La2 O3 have a cubic face–centered lattice and obey Vegard's rule. The systems of PbO with Sm2 O3 and Gd2 O8 are quite similar to that with La2 O3 . The compound Sm2 O3 .4Pb0 decomposes at 1000°C with evaporation of PbO; Sm2 O3 remains in the B modification. 相似文献
10.
Phase relations in the system Li2 O–B2 O3 –SiO2 were studied by quenching and solid-state reactions. No ternary compounds were detected in the portion of the system containing less than 53% Li2 O. Compatibility triangles were formed from the binary borate and silicate compounds. Liquidus data obtained by quenching are reported for four joins, Li2 O·2SiO2 –Li2 O·2B2 O3 , Li2 O·SiO2 -Li2 O·2B2 O3 , Li2 O·SiO2 -Li2 O·B2 O3 , and Li2 O·2B2 O3 -SiO2 . The last join cuts across the two-liquid region and is not a true binary system. Some probable ternary invariant points were located in the portion of the system which was quenchable to glass and adjacent to the two-liquid region. Further data on the previously reported immiscible liquid formation are given and the significance is discussed. Data on the thermal expansion behavior of certain glasses are presented. 相似文献
11.
Masahide Okamoto Hironori Kodama Kazuo Shinozaki 《Journal of the American Ceramic Society》2008,91(4):1110-1114
The sintering of a composite of MgO–B2 O3 –Al2 O3 glass and Al2 O3 filler is terminated due to the crystallization of Al4 B2 O9 in the glass. The densification of a composite of MgO–B2 O3 –Al2 O3 glass and Al2 O3 filler using pressureless sintering was accomplished by lowering the sintering temperature of the composite. The sintering temperature was lowered by the addition of small amounts of alkali metal oxides to the MgO–B2 O3 –Al2 O3 glass system. The resultant composite has a four-point bending strength of 280 MPa, a coefficient of thermal expansion (RT—200°C) of 4.4 × 10−6 K−1 , a dielectric constant of 6.0 at 1 MHz, porosity of approximately 1%, and moisture resistance. 相似文献
12.
Donald B. Dingwell 《Journal of the American Ceramic Society》1992,75(6):1656-1657
13.
Optical and material properties of (75− x )TeO2 – x GeO2 –20ZnO–5Na2 O–0.1Tm2 O3 glasses were investigated as candidate materials for an S-band Tm-doped fiber amplifier (TDFA). With increasing GeO2 content, the lifetime and the quantum efficiency of the 1.46 μm emission decreased slightly, while the emission bandwidth, the Vickers hardness, and thermal stability of the glass improved monotonically. Above 20 mol% GeO2 , the quantum efficiency decreased more rapidly with increasing GeO2 . We conclude that addition of a small amount of germania may improve material properties without deteriorating the optical properties of doped Tm3+ , and thus the germanotellurite fiber may be a more reliable material for the S-band TDFA in wavelength-division-multiplexing telecommunication. 相似文献
14.
Emission properties of PbO–Bi2 O3 –Ga2 O3 glasses doped with Ho3+ were investigated for fiber-optic amplification at the 1.18 μm wavelength region. When the glasses were doped with Ho3+ ions only, there was a weak emission at 1.18 μm with a lifetime of ∼200 μs. However, when Yb3+ ions were codoped, the lifetime of the 1.18 μm emission increased to 630 μs together with a significant increase in intensity. A similar enhancement in the intensity and lifetimes was realized for the 2.05 μm emission. These effects are due to energy transfer from the Yb3+ :2 F5/2 to the Ho3+ :5 I6 level. Devitrification of the ternary PbO–Bi2 O3 –Ga2 O3 glasses was efficiently suppressed by adding 10 mol% GeO2 . Optimum Ho3+ concentration was ∼0.4 mol%, whereas Yb3+ ions can be added up to the solubility limit. 相似文献
15.
Zirconia-rich subsolidus phase relationships in the ZrO2 –Sc2 O3 and ZrO2 –In2 O3 systems were investigated. Phase inconsistencies in the ZrO2 –Sc2 O3 system resulted from a diffusionless cubic-to-tetragonal ( t' ) phase transformation not being recognized in the past. Through three different measuring techniques, along with microstructural observations, the solubility limits of the tetragonal and cubic phases were determined. 相似文献
16.
Marianne Færøyvik Tor Grande Stein Julsrud Arne Seltveit 《Journal of the American Ceramic Society》1999,82(1):190-196
The phase diagram of the pseudoternary reciprocal system NaF–CaF2 –NaAlSiO4 –CaAl2 Si2 O8 is reported in this paper. The phase relations in the system have been investigated by differential thermal analysis, quenching melts, X-ray diffractometry, and optical and electron microscopies. The stable diagonal CaF2 –NaAlSiO4 divides the system in two pseudoternary systems. The solidus temperatures in the two subsystems NaF–CaF2 –NaAlSiO4 and CaF2 –NaAlSiO4 –CaAl2 Si2 O8 are 805°± 2°C and 1095°± 4°C, respectively. An extensive region of liquid–liquid immiscibility is evident in the NaF–CaF2 –NaAlSiO4 subsystem. The compositions of the two liquids fall outside the compositional surface NaF–CaF2 –NaAlSiO4 –CaAl2 Si2 O8 , but only a small deviation from the ternary behavior is observed. 相似文献
17.
Suguru Suzuki Minoru Takahashi Yasio Hikich 《Journal of the American Ceramic Society》1987,70(9):213-C
The free-volume fraction (Vf ) defined by Simha and Boyer was measured for network-forming oxide glasses in the systems P2 O5 -(GeO2 , TeO2 ,Sb2 O3 .V2 O5 ). The Vf values varied from 0.06 to 0.25. The systems P2 O5 -TeO2 : and P2 O5 -Sb2 O3 have Vf ∼0.1, which is near the magnitude of the free-volume fraction for normal metaphosphate glasses and many organic high polymers. 相似文献
18.
Jiin-Jyh Shyu Chun-Yuan Lue Ren-Der Jean 《Journal of the American Ceramic Society》2006,89(10):3235-3239
Parent glasses for fabricating glass–ceramics with nanometer-sized crystals usually have high viscosities, resulting in high processing temperatures. In this study, GeO2 was added to a transparent, near-zero thermal-expansion Li2 O–Al2 O3 –SiO2 glass–ceramic to reduce the viscosity of the parent glass. The effects of this compositional modification on the viscosity and crystal-nucleation rate of the parent glasses, and on the crystal size, thermal expansion, and optical transparency of the resulting glass–ceramics were investigated. It was found that addition of GeO2 was useful in reducing the glass viscosity. Owing to the reduced nucleating rate with the increase in the GeO2 content, the nucleating times required for reaching the smallest crystal size, the lowest coefficient of thermal expansion, and the highest transparency were all increased. With increasing GeO2 content, the lowest coefficient of thermal expansion that can be reached for glass–ceramics increased (0.14–2.9 × 10−6 K−1 ). The highest transparency of the GeO2 -containing glass–ceramics is almost as good as that of the GeO2 -free glass–ceramic and is almost independent of GeO2 content when the crystal size is smaller than about 65 nm. 相似文献
19.
Yaping Zhang Yunxia Yang Yuwen Ou Wei Hua Jiahua Zheng Guorong Chen 《Journal of the American Ceramic Society》2009,92(8):1881-1883
Glasses with compositions 50Bi2 O3 – x Sb2 O3 –10B2 O3 –(40– x ) SiO2 ( x =0, 1, 3, 5, 8, 10) have been prepared by conventional melt quench technique. Substitution of Sb2 O3 for SiO2 exerted an obvious effect on properties of glasses, especially, increased glass transition temperature ( T g ) and crystalline temperature ( T c ) greatly. Results of infrared transmission spectra attributed the effect to the formation of new bridging bonds of Sb–O–B and Sb–O–Si in glass network. 相似文献
20.
The phase diagrams in the Al2 O3 –Cr2 O3 and V2 O3 –Cr2 O3 systems have been assessed by thermodynamic modeling with existing data from the literature. While the regular and subregular solution models were used in the Al2 O3 –Cr2 O3 system to represent the Gibbs free energies of the liquid and solid phases, respectively, the regular solution model was applied to both phases in the V2 O3 –Cr2 O3 system. By using the liquidus, solidus, and/or miscibility gap data, the interaction parameters of the liquid and solid phases were optimized through a multiple linear regression method. The phase diagrams calculated from these models are in good agreement with experimental data. Also, the solid miscibility gap and chemical spinodal in the V2 O3 –Cr2 O3 system were estimated. 相似文献