1) E-glass
E-玻璃
1.
Physicochemical Reactions and Energy Consumption of E-glass during Melting;
E-玻璃熔化过程中的物化反应及能量消耗
2.
In this works,the specific thermal capacity,specific enthalpy and crystallization heat of E-glass form room temperature to 1350℃with different treatment were studied.
本文主要研究了不同热处理条件下,E-玻璃室温到1350℃之间的比热容、比热焓及析晶热的变化规律;在玻璃析晶TTT图的原理上提出和建立了玻璃比热焓TTT图;玻璃样品的热处理条件主要在900℃到1200℃,1-10小时之间;实验中采用X射线衍射法(XRD)确定不同玻璃样品的结晶相及结晶百分比,扫描电镜(SEM)观察析晶样品的显微结构形貌;提出了热流式DSC的相对标定系数法(Relative calibration coefficient),定量计算了氧化物和玻璃的比热容。
2) Low-E glass
Low-E玻璃
1.
Influence of Low-e glass on air conditioning load and building energy consumption;
Low-e玻璃对空调负荷及建筑能耗的影响
2.
The related concept and kinds of Low-E glass were introduced and some proposals for installation of the glass were put forward.
介绍了Low-E玻璃相关的概念和常见品种,对Low—E玻璃的安装使用提出一些建议。
3.
This paper studied on the aerodynamic characteristics and velocity profile of air current in tempering furnace when Low-E glass is tempered and convective heat transfer is put into effect by air-stream introduction .
着重研究了Low-E玻璃在钢化加热炉内加入空气进行对流传热时,气流的气动特性及速度场分布情况,从而讨论了它对炉内传热所做的贡献。
4) E-fiber glass
E玻璃纤维
1.
In this article, we introduce the excellent performance of the composites that uses the BMI resin as the matrix and the E-fiber glass as the reinforced plastic.
介绍以双马树脂为基体、E玻璃纤维为增强体的复合材料的优异性能及其在雷达天线罩中的应用及价值。
5) Low-E glass window
Low-E玻璃窗
6) E-glassfiber
E-玻璃纤维
补充资料:AVM玻璃固化法
分子式:
CAS号:
性质:一种玻璃固化方法。它采用一个连续进料的回转炉煅烧器和一个感应加热玻璃熔融器的组合。煅烧器分四段,废液在前两段干燥,后二段煅烧,产物转到熔炉与玻璃熟料一起熔融,再将之浇罐入不锈钢容器中。世界上第一个玻璃固化车间使用的方法。
CAS号:
性质:一种玻璃固化方法。它采用一个连续进料的回转炉煅烧器和一个感应加热玻璃熔融器的组合。煅烧器分四段,废液在前两段干燥,后二段煅烧,产物转到熔炉与玻璃熟料一起熔融,再将之浇罐入不锈钢容器中。世界上第一个玻璃固化车间使用的方法。
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