1) liquid layer
液层
1.
Using the model,the formulas of ablation recession rate,liquid layer thickness and temperature of liquid layer are achieved.
给出了材料烧蚀过程中烧蚀速度、液层厚度、液层温度及固体温度的表达式及求解方法,并把计算结果与电弧加热器平板烧蚀试验的液层厚度分布及烧蚀量的精确测量结果进行了对比。
2) downcomer liquid
降液管液层
1.
The results showed that the rise-up vapor entered continuously the downcomer in form of gas column when the vapor flow in the column increased gradually,until the downcomer liquid was broken through and the downcomer was not operated normally.
结果表明,当塔内的气体流量逐渐增大,漏入的气体以气柱的形式连续进入降液管时,降液管液层被击穿,降液管无法正常操作。
3) thin electrolyte film
薄层液膜
1.
A study on corrosion inhibition of 16Mn steel under thin electrolyte film with H_2S;
16Mn钢在含H_2S的薄层液膜下的缓蚀研究
2.
The effect of CO2 on the atmospheric corrosion of A3 steel under thin electrolyte film has been studied using an electrochemical technique, combined with observation of the surface by SEM and analysis of corrosion product by XRD.
通过电化学法并结合 XRD及 SEM;研究了大于临界相对湿度条件下, CO_2浓度对 A3钢在薄层液膜下大气腐蚀的影响电化学实验结果表明,A3钢的大气腐蚀速率随CO_2浓度的上升而增加。
4) lamellar liquid crystalline
层状液晶
1.
Rheological properties of lamellar liquid crystalline phase of nonionic surfactant NP-10 in NaNO_3 water solution was investigated.
研究了非离子表面活性剂NP-10在硝酸钠水溶液中形成的层状液晶的流变性。
5) emulsion intercalation
乳液插层
1.
Preparation of polymer-emulsion/montmorillonite nano-composites by emulsion intercalation;
乳液插层法制聚合物/蒙脱土纳米复合材料
2.
Preparation of poly(butyl acrylate)/organophilic montmorillonite nanocomposites by in-situ emulsion intercalation polymerization and its application in ABS;
原位乳液插层法制备PBA/OMMT纳米复合母料及其在ABS中的应用
3.
Styrene-butadiene rubber/organic montmorillonite nanocomposites prepared by emulsion intercalation method;
乳液插层法制备丁苯橡胶/有机蒙脱土纳米复合材料
补充资料:降液管清液层高度
分子式:
CAS号:
性质:又称降液管清液层高度。板式塔降液管内的液柱液面到下层塔板的垂直距离。如图中的Hd(图暂缺)。为保持板式塔正常操作,避免发生液泛,降液管液柱高度不能超过一定限度。一般应满足Hd≤(0.4~0.6)(HT+hw),式中HT为塔板间距,hw为堰高,系数一般取0.5,易起泡物系取0.4,不易起泡物系取0.6。
CAS号:
性质:又称降液管清液层高度。板式塔降液管内的液柱液面到下层塔板的垂直距离。如图中的Hd(图暂缺)。为保持板式塔正常操作,避免发生液泛,降液管液柱高度不能超过一定限度。一般应满足Hd≤(0.4~0.6)(HT+hw),式中HT为塔板间距,hw为堰高,系数一般取0.5,易起泡物系取0.4,不易起泡物系取0.6。
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