1) draw-rod method
"玻棒拉丝法,玻璃纤维"
2) glass
玻璃
1.
Progress in Study on Crack Resistence of Bulky Nanoglass Prepared by Sol-gel Method;
溶胶-凝胶法制备纳米块状玻璃的防开裂研究进展
2.
Experiment research on glass changing from insulator to conductor;
玻璃由绝缘体变成导体的实验探究
3.
Study on Cleaning Agent for Glass with Low Freezing Point;
低冰点高效汽车挡风玻璃清洁剂
3) adhesion between the surface of glass and punch
玻附
1.
According to the problems in practical production(adhesion between the surface of glass and punch), proposed the solution, and introduced the improvement machining method.
介绍了彩色显像管屏凸模内腔设计的基本思路,针对实际生产中存在的问题(玻附)提出了解决对策,并介绍了改进后的加工方法。
4) glass fiber
玻纤
1.
A study on interfacial behaviors of glass fiber/polyethylene composite by MM and MD simulations;
玻纤增强聚乙烯界面行为的分子模拟研究
2.
Effect of Triazine on Property of PET Reinforced by Glass Fiber;
一种三嗪阻燃剂对玻纤增强PET体系性能的影响
3.
Nonisothermal crystallization kinetics of glass fiber reinforced HDPE were studied by differential scanning calorimetry(DSC),using Jeziorny and Ozawa methods to analyze the kinetics data.
采用双螺杆挤出机,用玻纤对HDPE进行改性,考察了玻纤对材料结晶性能和流变性能的影响。
5) glasses
玻璃
1.
Syntheses and Properties of Green Long Lasting Luminescent Glasses;
绿色长余辉发光玻璃的合成和性质
2.
Formation and absorbtion spectrum of Sm rare earth borosilicate glasses;
含Sm稀土硼硅酸盐玻璃的形成区及吸收谱线
3.
Light amplification of rare earth doped glasses;
掺稀土离子玻璃的光放大效应
6) glass shell
玻壳
1.
The question on shells of the high URT of glass shells will affect entironment badly,this problem has been solved consequently.
针对铈离子吸收紫外线的机理,通过在普通玻璃中加入CeO2调整玻璃配方和相关工艺的试验,研制出了透紫外率小于50%(国际行业标准)的玻壳,从而解决了国内当前玻壳透紫外率普遍偏高、严重影响生态环境的难题,同时对CeO2的加入量及工艺中存在的问题进行了讨论。
2.
There are complicated components and a large amount of lead in the lead dust of the glass shell of kinescope,so it has potential harm.
显像管玻壳含铅粉尘组成复杂,铅含量高,潜在危害大,采用盐酸热循环浸取铅、冷析PbCl2的方法,可使铅的浸出率达95%以上,析出的PbCl2纯度可达95%~96%,为充分利用其铅资源,真正实现无害化提供了依
3.
Glass batch of boron silicate is used as nano-titanium for anti-ultraviolet glass shell.
采用溶胶-凝胶法制备了金红石型纳米TiO2粉末,将其用于普通硼硅玻璃配合料中制成抗紫外线的玻壳。
参考词条
补充资料:玻璃纤维增强聚甲基丙烯酸甲酯透明玻璃钢
分子式:
CAS号:
性质: 玻璃纤维增强的有机玻璃。具有好的机械强度,冲击强度可比普通有机玻璃高5~10倍,半透明、耐光耐候性优良。制法与铸型本体聚合制有机玻璃相似,在模具中每铺一层玻璃纤维,浇一层甲基丙烯酸甲酯预聚浆料,使其充分浸润,最后密封后加热固化脱模。主要用作建筑材料,如遮阳板等。
CAS号:
性质: 玻璃纤维增强的有机玻璃。具有好的机械强度,冲击强度可比普通有机玻璃高5~10倍,半透明、耐光耐候性优良。制法与铸型本体聚合制有机玻璃相似,在模具中每铺一层玻璃纤维,浇一层甲基丙烯酸甲酯预聚浆料,使其充分浸润,最后密封后加热固化脱模。主要用作建筑材料,如遮阳板等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。