摘要
为了获得致密的云母玻璃陶瓷烧结体,采用液相沉淀法制备出分散性好的复合氧化物前驱粉体,粉体经两步法晶化热处理后得到主晶相为氟金云母(NaMg3 AlSiO3O10F2)的可加工云母玻璃陶瓷粉体.采用DTA/TGA,FT-IR,XRD,TEM分析了粉体的晶化过程.结果表明,液相沉淀制备的前驱粉体为非晶态,颗粒呈近球形,颗粒尺寸大约在10~20nm之间,大小比较均匀,有少量团聚现象.在经过晶化热处理后的粉体形貌主要呈片层状;氟金云母相结构在600℃左右开始析出,在650℃时形核速率最大,同时伴随有少量的镁橄榄石(Mg2SiO4)和霞石(NaAlSiO4)析出;粉体经两步法晶化热处理后粉体晶化度达到45%左右.
In order to get the compact mica glass-ceramic sintered body, the powder precursor of complex oxide was prepared by liquid -phase precipitation method, the powder was treated by the twostep crystallization heat treatment to get machinable mica glass- ceramic powder containing fluorophlogopite(NaMg3 A1SiO30x0Fz ) as the main crystalline phase. The crystallization procedure of the powder was investigated using DTA/TGA, FT- IR, XRD and TEM. The results show that the morphology of the prepared powder precursor particle is nearly spherical, the size of the particle is in the range of 10 -20 nm,and the particle is uniform and with a little agglomeration. The morphology of the powder treated by the crystallization heat treatment is mainly lamellar. The fluorophlogopite is tobe crystallized at about 600 ℃, and with the largest nucleation rate at 650℃. Meanwhile a small quantity of nepheline(NaAlSiO4) and forsterite(Mg2SiO4) are also crystallized out at 650 ℃. The crystallization degree of the powder, after heat treatment, reached about 45 %.
出处
《西安工业大学学报》
CAS
2009年第6期539-544,共6页
Journal of Xi’an Technological University
基金
可加工陶瓷火盖的研制(H200804026)
关键词
液相沉淀法
云母玻璃陶瓷
晶化行为
liquid-phase precipitation method
mica glass-ceramics
crystallization behavior
