1) Hot Contact Angle
热态润湿角
2) Hot Wettability
热态润湿性
1.
Investigation on the Hot Wettability of Coating for Die Casting;
压铸涂料热态润湿性的研究
3) wetting angle
润湿角
1.
A method for measuring wetting angle of solder;
一种软钎焊料润湿角的测量方法
2.
Surface tension and wetting angle measuring by suspending drops;
悬垂液滴研究及表面张力和润湿角测定
3.
By adjusting the basicity and the content of MgO,CaF2 or FeO of binding phase,the melting characteristics and wetting angles of different binding phase to Fe3O4 were investigated.
研究结果表明:碱度变大,MgO含量增加使粘结相的熔化温度升高,润湿角增大;CaF2和FeO能降低粘结相的熔化温度和润湿角。
4) contact angle
润湿角
1.
The adsorption behavior of dodecylamine on carbon steel surface and its inhibition mechanism in hydrochloric acid solutions were studied by electrochemical methods,atomic force microscopy and contact angle measurements.
利用原子力显微镜(AFM)、动电位扫描及润湿角测量等手段研究了盐酸溶液中十二胺在碳钢表面的吸附行为及其对碳钢腐蚀行为的影响。
2.
In this paper,three types of wettability evaluation methods,namely wetted spreading area test,wetting force test and contact angle test,have been used to measure the wettability of Sn-37Pb using different fluxes which include different concentration of the rosin.
分别用3种润湿性测量方法(铺展面积测量法、润湿力测量法和润湿角测量法)做了不同松香浓度和不同助焊剂下的钎料Sn-37Pb的润湿性,以及在不同助焊剂下润湿性。
3.
Owing to the fact that Mg can volatilize on the liquid droplet surface and destroy the new aluminium oxide on droplet surface, adding Mg in aluminium can reduce the contact angle of aluminium on fly ash and improve the wettability.
用改进的座滴法测量了铝合金在粉煤灰上的润湿角。
5) contact angle of water
水润湿角
1.
SiO 2/TiO 2 superhydrophilic coating on glazed tile substrate was prepared by solgel method,the surface chemical composition,contact angle of water and photographs of surface of the coating were studied by use of XPS,photomicroscopy and SEM.
用溶胶 -凝胶方法在釉面砖上制备了SiO2 /TiO2 超亲水涂层 ,用XPS、光学显微镜和SEM研究了涂层的表面化学组成、水润湿角和表面形貌。
6) angle of wetting
湿润角
补充资料:润湿热
分子式:
CAS号:
性质:一定温度下,固体补惰性液体(即不与固体作用,也不溶解固体)浸湿时所产生的热量称为润湿热。可用每单位质量的固定所产生的热量表示,也可用每单位表面积的固体所产生的热量表示。
CAS号:
性质:一定温度下,固体补惰性液体(即不与固体作用,也不溶解固体)浸湿时所产生的热量称为润湿热。可用每单位质量的固定所产生的热量表示,也可用每单位表面积的固体所产生的热量表示。
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