1) fluorescent ceramic
荧光陶瓷
1.
In this paper, the optimized process road for getting light-storing fluorescent ceramic with ideal lightening property was gained by using cross experiment method and a series of optimizing experiments.
论述了通过正交试验和优化系列验证试验确定出获得理想发光性能的蓄光性荧光陶瓷制品的最佳工艺技术路线。
2) Ceramic Pole Fluorescent Lamp(CPFL)
陶瓷电极荧光灯(CPFL)
1.
The Ceramic Pole Fluorescent Lamp(CPFL),which has recently been invented,has made a great achievement in the field of gas discharge lamps.
新型陶瓷电极荧光灯(CPFL)的问世,成为气体放电光源领域的一项重要突破。
3) luminescent ename
荧光搪瓷
4) electrooptical ceramics
电光陶瓷
1.
PLZT Powders preparation is very important to obtain the transparent electrooptical ceramics.
要得到透明的PLZT电光陶瓷,粉体的制备是关键,目前的粉体制备技术中存在晶粒大、易团聚等缺陷,限制了PLZT的发展,所以PLZT的纳米制备技术的突破将带来PLZT透明电光陶瓷的广泛应用。
5) laser ceramics
激光陶瓷
1.
Some important transparent ceramics such as infrared ceramics,laser ceramics and scintillator ceramic were introduced and the developing trends were overviewed briefly.
分别介绍了红外陶瓷、激光陶瓷、闪烁陶瓷,并对他们未来的发展趋势进行简要的综述。
2.
So the new application of transparent polycrystalline ceramics would be exploited as laser ceramics.
随着透明陶瓷制备技术的不断发展,使得部分透明陶瓷成功用作激光放大介质,这为透明陶瓷的应用开辟了新的领域,即用作激光陶瓷。
3.
The defects create optical scattering and absorption centers in laser ceramics, and also exert an influence on the thermal and mechanical properties of the materials.
激光陶瓷中的各类缺陷,包括晶界、微气孔、杂质、非主晶相、表面缺陷和色心等,构成了激光陶瓷中主要的光散射和吸收中心,并对材料的热学和力学性质产生影响。
6) electrooptic ceramics
电光陶瓷
1.
The PLZT electrooptic ceramics doped with Sb3+ were prepared by hydrothermal method,and the PLZT ceramics was analyzed by XRD and Raman spectrum,etc.
水热合成法制备Sb3+掺杂的PLZT电光陶瓷。
2.
A novel Q-switched fiber laser made of OptoCeramic○R electrooptic ceramics is reported.
报道了基于OptoCeramic电光陶瓷材料的新型调Q光纤激光器。
补充资料:高压荧光灯用荧光粉
分子式:
CAS号:
性质:高压荧光灯中涂上Eu3+激活的钒酸钇或钒磷酸钇(YVO4:Eu,Y(V,P)O4:Eu),可提高光效,改善显色性,增加了灯中的红色比和显色指数。YVO4白色立方晶体耐温度猝灭,发光效率高,传递效率大,高压荧光汞灯主要用于街道,厂房和场地照明。
CAS号:
性质:高压荧光灯中涂上Eu3+激活的钒酸钇或钒磷酸钇(YVO4:Eu,Y(V,P)O4:Eu),可提高光效,改善显色性,增加了灯中的红色比和显色指数。YVO4白色立方晶体耐温度猝灭,发光效率高,传递效率大,高压荧光汞灯主要用于街道,厂房和场地照明。
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