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发泡剂对空心石英玻璃微球结构的影响 被引量:1

Effect of Foaming Agent on Hollow Structure of Quartz Glass Microspheres
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摘要 空心玻璃微球因具有低密度、高强度、耐高温等优点而被广泛研究。采用喷雾造粒法与粉末法相结合,掺入发泡剂,以射频等离子体作为热源制备空心石英玻璃微球,研究了SiC、CaSO_(4)、CaCO_(3)三种发泡剂对制备空心石英玻璃微球的影响。结果表明,通过喷雾造粒法将发泡剂与SiO_(2)充分混合形成粗坯颗粒,再利用射频等离子设备对粗坯粉末进行高温烧结,得到空心石英玻璃微球。其中CaSO_(4)、CaCO_(3)发泡剂效果较差,所产生的气体难以留在玻璃微球内部形成中空气泡;而SiC发泡剂效果最好,在射频等离子烧结过程中产生气体,被玻璃液包裹形成空心结构,得到的玻璃微球平均真密度为1.7995 g/cm^(3)。选用菲利华石英块状疏松体作为SiO_(2)原料,当m(SiO_(2))∶m(SiC)∶m(H_(2)O)为100∶3∶300时,可制备出平均真密度为0.72 g/cm^(3)的空心多孔石英玻璃微球。 Hollow glass microspheres have been widely studied for their low density,high strength and high temperature resistance.Hollow structure of quartz glass microspheres(HSQGM)were prepared by spray granulation method combined with powder method,with the addition of foaming agent and radio frequency plasma as heat source.The effects of SiC,CaCO_(3) and CaSO_(4) foaming agents on the preparation of HSQGM were investigated.The results show that the foaming agent and silica are uniformly mixed to form coarse particles by spray granulation method,and then HSQGM are obtained by high temperature sintering of coarse powder by radio frequency plasma equipment.Among them,the effects of CaSO_(4) and CaCO_(3) are poor,and the generated gas are difficult to keep inside the glass microspheres to form hollow bubbles,while the effect of SiC is the best,which generates gas inside the glass microspheres in the process of radio frequency plasma sintering and is wrapped by liquid glass to form hollow structures.The average true density of the obtained glass microspheres is 1.7995 g/cm^(3).In addition,Feilihua bulk loose quartz is selected as raw material for SiO_(2)and the HSQGM with an average true density of 0.72 g/cm^(3) are obtained when the mass ratio of SiO_(2),SiC and H_(2)O is 100∶3∶300.
作者 潘彬 谢俊 蔡棋 张峰 熊德华 张继红 王静 韩建军 PAN Bin;XIE Jun;CAI Qi;ZHANG Feng;XIONG Dehua;ZHANG Jihong;WANG Jing;HAN Jianjun(State Key Laboratory of Silicate Materials for Architectures,Wuhan University of Technology,Wuhan 430070,China)
出处 《硅酸盐通报》 CAS 北大核心 2022年第1期285-294,共10页 Bulletin of the Chinese Ceramic Society
基金 国家自然科学基金(52072278)。
关键词 发泡剂 石英玻璃 空心微球 碳化硅 喷雾造粒法 射频等离子体 foaming agent quartz glass hollow microsphere silicon carbide spray granulation method radio frequency plasma
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