Phase Equilibrium Relations in the Binary System Bismuth Sesquioxide-Niobium Pentoxide

Journal of research of the National Bureau of Standards. Section A, Physics and chemistry Pub Date : 1962-11-01 DOI:10.6028/jres.066A.046

R. Roth, J. Waring

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引用次数: 115

Abstract

The phase equilibrium diagram for the binary system bismuth sesquioxide-niobium pentoxide has been constructed from observations of fusion characteristics and X-ray diffraction data. In the system five binary compounds were observed with Bi2O3:Nb2O5 ratios of 5:3, 1:1, 4:9, 1:5, and 1:6. The 1:1 compound was found to transform irreversibly (in laboratory time) from the orthorhombic bismutotantalite type structure to a triclinic form at about 1,020 °C and melt congruently at 1,245 °C. The 5:3 compound melts incongruently at 1,193 °C the 4:9 at 1,183 °C and the 1:6 at 1,242 °C. The 1:5 compound has a maximum temperature of stability at 1,095 °C and the 4:9 and 1:6 compounds have minimum temperatures of stability at 1,070 °C and 1,002 °C respectively. Nb2O5 was found to enter into solid solution in Bi2O3, up to about 23.5 mole percent Nb2O5. The melting point is increased and the monoclinic-cubic phase transformation temperature is decreased. A morphotropic phase change occurrs at about 19.5 mole percent Nb2O5 from the cubic to a pseudocubic structure.

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倍半氧化铋-五氧化铌二元体系的相平衡关系

通过对半氧化铋-五氧化铌二元体系的熔合特征和x射线衍射数据的观察，建立了二元体系的相平衡图。在该体系中，Bi2O3与Nb2O5的比例分别为5:3、1:1、4:9、1:5和1:6。发现1:1的化合物在1020℃时不可逆地从正交铋钽型结构转变为三斜型结构，并在1245℃时完全熔化。5:3的化合物在1193°C、4:9的在1183°C和1:6的在1242°C时不一致熔化。1:5化合物的最高稳定温度为1095℃，4:9和1:6化合物的最低稳定温度分别为1070℃和1002℃。Nb2O5在Bi2O3中进入固溶体，Nb2O5的含量约为23.5摩尔。熔点升高，单斜立方相变温度降低。当Nb2O5浓度为19.5摩尔时，从立方结构到准立方结构发生了相变。

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Journal of research of the National Bureau of Standards. Section A, Physics and chemistry

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