Pb2+取代Zn2+在碱硼铝硅酸盐微晶玻璃中的应用:微观结构方面

Advanced Materials Proceedings Pub Date : 2018-04-10 DOI:10.5185/AMP.2018/042

Mrinmoy Garai, B. Karmakar

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引用次数: 0

摘要

本研究考察了添加5 wt.% Pb 2+取代相同Zn 2+含量对10b2o3 -16Al 2o3 - 39sio2 -12MgO-12MgF -4K 2o - 1li 2o - 1alpo4 (wt.%)玻璃陶瓷复合材料结晶和微观结构的影响。Pb - 2+取代Zn - 2+的线性热膨胀(在50-600℃时为6.93 ~ 7.18×10 -6 /K)的增加归因于阳离子的场强。不透明晶玻璃是由透明玻璃(在1500℃下一步熔融淬火合成)在1050℃下受控热处理而成，主要晶相为氟云母kmg3alsi3o10f2。含ZnO微晶玻璃的FFESEM显示，100-200µm大小的片状晶体呈“良好的连锁排列”;在PbO的作用下，形成了由“球形液滴状”纳米晶(晶粒尺寸为10 ~ 50 nm)组成的“纳米晶结构”。在50 ~ 700℃时，ZnO取代导致线性热膨胀率(11.03 ~ 7.93 × 10 -6 /K)降低，这主要归因于PbO对硼铝硅酸盐体系的结晶抑制倾向。含氧化锌玻璃陶瓷在50-700℃和50-800℃时热膨胀大(> 11 × 10 -6 /K)，可以表现出足够的抗热震性，适合高温密封应用。版权所有©2017 VBRI出版社。

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Zn2+ Substitution by Pb2+ in Alkaline-boro-aluminosilicate Glass-ceramics: Microstructural Aspects

This study exemplifies the effects of 5 wt.% Pb 2+ addition replacing the same Zn 2+ content on crystallization and microstructure of 10B 2 O 3 -16Al 2 O 3 -39SiO 2 -12MgO-12MgF 2 -4K 2 O-1Li 2 O-1AlPO 4 (wt.%) glass-ceramic composite. Increase of linear thermal-expansion (6.93 to 7.18×10 -6 /K at 50-600°C) in substituting Zn 2+ by Pb 2+ is attributed to the field-strength of cations. Opaque crystalline glass-ceramics are derived from the transparent glasses (synthesized by single-step melt-quenching at 1500 O C) by controlled heat-treatment at 1050°C and the predominant crystalline-phase was identified as fluorophlogopite mica, KMg 3 AlSi 3 O 10 F 2 . FFESEM of the ZnO containing glass-ceramics revealed that 100-200 µm sized plate-like crystals are in ‘well-packed interlocked arrangement’; which changed to ‘nanocrystalline microstructure’ combined of ‘spherical droplet like’ nanocrystals (crystal size = 10-50 nm) in attendance of PbO. Decrease in linear thermal-expansion (11.03 to 7.93 × 10 -6 /K at 50-700°C) due to the substitution of ZnO is ascribed to the crystallization inhibiting tendency of PbO towards boroaluminosilicate system. Thermal-expansion of ZnO containing glass-ceramic is large (> 11 × 10 -6 /K at 50-700 and 50-800°C) which can exhibit their enough thermal shock resistivity to be suitable for high-temperature sealing application. Copyright © 2017 VBRI Press.

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Advanced Materials Proceedings

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