1) fluorannite
氟铁云母
1.
Macrocosmic and microcosmic geological feature and experimental data of synthetic fluorannite show that the fluorannite monomineral rock was crystallized directly from .
位于苏州A型花岗岩主体相晚阶段衍生物 (碱长花岗岩 )上部 ,基本上由新矿物———氟铁云母组成的单矿物岩 ,具有独特的产状、结构、构造、岩石化学、矿物学、地球化学和成矿作用特征。
2.
It is present in the fluorannite differentiates at the top of the Suzhou A_type granite located in the western suburb of Suzhou City.
氟铁云母是三八面体云母类矿物新种 ,属铁云母的富氟类似物。
2) fluorannilite
氟铁云母岩
1.
Suzhou fluorannilite: A differentiation remnant of F-rich A-type granitic magma;
苏州氟铁云母岩——富氟A型花岗岩浆的残余分异物
3) fluorannite differentiate
氟铁云母分异岩
1.
It is present in the fluorannite differentiates at the top of the Suzhou A_type granite located in the western suburb of Suzhou City.
新矿物产于“姑苏城外”近郊苏州A型花岗岩上部氟铁云母分异岩中。
4) fluorophlogopite
氟金云母
1.
Influence of technological parameters on tools wear in turning fluorophlogopite;
氟金云母陶瓷车削参数对刀具磨损的影响
2.
Influence of technological parameter on tools wear in drilling fluorophlogopite;
氟金云母陶瓷钻削参数对刀具磨损的影响
3.
Experimental study on materials removal in turning of fluorophlogopite;
氟金云母陶瓷车削加工中材料去除的试验研究
5) fluormica
氟云母
1.
A machinable fluoramphibole glass-ceramic was fabricated by directly mixing fluormica crystals with recycled glass powder and sintering.
将废玻璃和氟云母晶体粉末混合,采用烧结法制备可加工氟闪石玻璃陶瓷。
2.
The reactive crystallizing behaviors in soda-lime glass powder with different additions of fluormica crystals were studied using X-ray diffraction and scanning electron microscopy during the sintering process.
用X射线衍射、扫描电镜研究了不同加入量氟云母晶体的钠钙玻璃粉末在烧结过程中的反应析晶。
3.
A machinable fluoramphibole glass-ceramic was fabricated by directly incorporating fluormica crystals with recycled glass powder and then sintered.
将氟云母晶体粉末直接与窗玻璃粉末混合后烧结,制备出可加工氟闪石玻璃陶瓷。
补充资料:铁锂云母
分子式:KLiFeAl[A1Si3O10](F,OH)2
CAS号:
性质:主要含锂矿物之一。含氧化锂1.1%~5%。单斜晶系,晶体呈板状,通常呈片状集合体。浅黄、灰褐、黄褐、绿褐或暗绿色。玻璃光泽。硬度2~3,密度2.9~3.2g/cm3。主要产于云英岩中,亦见于伟晶岩和高温热液矿脉中。是制造溴化锂、氯化锂、碳酸锂、锂电池等的原料。还可用于提炼金属锂。
CAS号:
性质:主要含锂矿物之一。含氧化锂1.1%~5%。单斜晶系,晶体呈板状,通常呈片状集合体。浅黄、灰褐、黄褐、绿褐或暗绿色。玻璃光泽。硬度2~3,密度2.9~3.2g/cm3。主要产于云英岩中,亦见于伟晶岩和高温热液矿脉中。是制造溴化锂、氯化锂、碳酸锂、锂电池等的原料。还可用于提炼金属锂。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条