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银掺杂对Bi_2O_3-ZnO-Nb_2O_5(BZN)系陶瓷熔融物性的影响 被引量:8
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作者 魏建中 张良莹 姚熹 《硅酸盐学报》 EI CAS CSCD 北大核心 2000年第3期264-267,共4页
在BZN系陶瓷中 ,立方焦绿石结构的α相与低对称结构的β相是 2个重要的基本物相 .α相是熔点为 1190℃的同成分熔融化合物 ,β相是转熔温度为 110 0℃的异成分熔融化合物 .以差热分析(DTA)与X射线衍射 (XRD)分析为研究手段 ,明确了银掺... 在BZN系陶瓷中 ,立方焦绿石结构的α相与低对称结构的β相是 2个重要的基本物相 .α相是熔点为 1190℃的同成分熔融化合物 ,β相是转熔温度为 110 0℃的异成分熔融化合物 .以差热分析(DTA)与X射线衍射 (XRD)分析为研究手段 ,明确了银掺杂对BZN系α相与β相熔融物性的影响 .结果表明 :银掺杂α相的熔点略有降低 ;银掺杂 β相的转熔温度下降到 10 0 0℃ ,银掺杂 β相在 10 0 0℃附近吸热分解为α相与液相 ,其转熔反应、淬冷析晶等现象 ,与无掺杂 β相相同 . 展开更多
关键词 银掺杂 熔融物性 BZN系 陶瓷 金属氧化物
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Bi_2O_3-ZnO-Nb_2O_5(BZN)系陶瓷的熔融物性研究 被引量:4
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作者 魏建中 张良莹 姚熹 《硅酸盐学报》 EI CAS CSCD 北大核心 1999年第3期362-364,共3页
在BZN系陶瓷中,立方焦绿石结构的α相与低对称结构的β相是2个重要的基本物相.以差热分析(DTA)与X射线衍射(XRD)分析为研究手段,明确了α相与β相的熔融物性.结果表明:α相是同成分熔融化合物,熔点1190℃;β... 在BZN系陶瓷中,立方焦绿石结构的α相与低对称结构的β相是2个重要的基本物相.以差热分析(DTA)与X射线衍射(XRD)分析为研究手段,明确了α相与β相的熔融物性.结果表明:α相是同成分熔融化合物,熔点1190℃;β相是异成分熔融化合物,在1100℃吸热分解为α相与液相.在自然冷却时,发生转熔过程,α相转入熔融液相中,析出β相,转熔温度1100℃;在淬火冷却时,液相中析出BZN系立方萤石相. 展开更多
关键词 熔融物性 BZN 陶瓷 氧化物陶瓷
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Distribution of mineral species in different coal seams of Talcher coalfield and its transformation behavior at varying temperatures 被引量:4
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作者 Amit Banerjee P. R. Mishra +4 位作者 Ashok Mohanty K. Chakravarty R. Das Biswas R. Sahu S. Chakravarty 《International Journal of Coal Science & Technology》 EI 2016年第2期97-103,共7页
Mineral phase characterization and thorough understanding of its transformation behavior during combustion are imperative to know the potential utilization of coal in the thermal industries. The primary objective of t... Mineral phase characterization and thorough understanding of its transformation behavior during combustion are imperative to know the potential utilization of coal in the thermal industries. The primary objective of this work is to analyze the quality of Indian Coals and obtain their mineral species-specific information at different depths. The samples were obtained from Talcher Coalfield, Odisha, India. Coal from four seam sections in the Talcher coalfield, India are mainly high ash coal (〉50 %) and volatile matter deceases along with the seam depth. XRD results show that the major mineral phases present in the coal are quartz and kaolinite. Siderite, illite, and anatase were found in minor quantities. It has been observed that the clay minerals (kaolinite, silimanite, illite) decompose at higher temperature and traces of dolomite, mullite, hematite etc. are formed during the process of combustion. Among the four seams (M2, M12, M24 and M43) studied, ash of M43 has high A1203%, TIO2% and K20% content and low SIO2%, CaO% and MgO% content. High acid- to-base ratios contributed to high ash fusion temperatures (IDT 〉 1500 ℃) and low slagging potential of the coals studied. Relatively low fouling index (〈0.3) was estimated for all the coal seams studied. Furthermore, thermodynamic modeling software, FactSage, have been used to envision the mineral phase transformations that take place between 800 and 1500℃ during coal combustion. 展开更多
关键词 Proximate analysis - Ultimate analysis FactSage XRD AFT Talcher coalfield
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