1) glass beads as substrate
玻璃珠基底
2) glass substrate
玻璃基底
1.
In-situ growth of gold nanostructure on glass substrates by light irradiation and their spectral properties;
光照法在玻璃基底上原位生长金纳米结构及其光谱性质
2.
The effect of hot cleaning and ion cleaning for photocathode glass substrate on improving the photocathode sensitivity is researched.
论文探索了光阴极玻璃基底的热清洁和离子清洁对提高光阴极灵敏度的影响。
3.
Polystyrene films were successfully prepared on glass substrate by surface-initiated reverse atom transfer radical polymerization(SI-RATRP).
将过氧引发基团接枝到玻璃基底表面,以CuCl2/2,2′-联吡啶为催化体系,通过表面引发反向原子转移自由基聚合反应(SI-RATRP)成功地构筑了聚苯乙烯(PS)膜,利用X-射线光电子能谱(XPS)、接触角仪、椭圆偏光仪、原子力显微镜(AFM)和凝胶色谱(GPC)对膜进行了表征。
3) mother-of-pearl bead
珠光玻璃珠
5) glass bead
玻璃微珠
1.
Compressive properties and thermal stability of glass bead reinforced rigid polyurethane foams;
玻璃微珠增强硬质聚氨酯泡沫塑料的压缩性能及热稳定性
2.
Study on heat resistance of the modified bismaleimide composites filled with hollow glass beads;
空心玻璃微珠填充改性双马来酰胺树脂复合材料耐热性能的研究
3.
Effect of Surface Modification of Hollow Glass Bead on Property of Bismaleimide;
空心玻璃微珠表面改性对双马来酰亚胺树脂性能的影响
6) glass bead
玻璃珠
1.
Analysis of Composition in Glass Beads from the Ruins of the Luoyang Northern Wei Dynasty;
洛阳北魏大市遗址出土玻璃珠成分分析
2.
Methods In flask fermentation process,the influences of number of glass beads,time of adding glass beads and opportunity of adding glass beads at different fermentation stage were studied respectively.
方法考察摇瓶发酵过程中玻璃珠数量、添加玻璃珠时间及不同发酵阶段添加玻璃珠对发酵的影响。
3.
Effect of glass beads size on dyeing waste water treatment performance was investigated by using bipolar pulse treatment system, and the influence of gas flow rate was studied simultaneously.
为将非热等离子体技术用于液态污染物的治理,用双极性脉冲水处理平台,研究了玻璃珠的粒径d对染料废水的脱色处理效果的影响,同时考察了通入气体流量qV的作用。
补充资料:玻璃细珠
分子式:
CAS号:
性质:又称玻璃微珠。是直径几到几十微米的实心或空心的玻璃珠,有无色的和有色的。其制造方法有粉末法、熔融法和煅烧法三种。它的特性是:(1)光洁度好;(2)光的反射性好,具有定向反射性;(3)冲击强度高。其成分根据用途来确定。它可用于金属工件的研磨介质、喷丸及清洁处理、交通安全标志、化工填料、反射屏幕等。
CAS号:
性质:又称玻璃微珠。是直径几到几十微米的实心或空心的玻璃珠,有无色的和有色的。其制造方法有粉末法、熔融法和煅烧法三种。它的特性是:(1)光洁度好;(2)光的反射性好,具有定向反射性;(3)冲击强度高。其成分根据用途来确定。它可用于金属工件的研磨介质、喷丸及清洁处理、交通安全标志、化工填料、反射屏幕等。
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