1) flow-resistance
流阻率
1.
The effects of various factors as flow-resistance, thickness, density, porosity, fiber diameter and back air space on the sound absorbing characteristics of metal fibrous materials were presented and analysed.
本文用驻波管法测试了多种规格的碳钢、黄铜、铝纤维等吸声材料的垂直入射吸声系数,频率范围为100~4000Hz;分析讨论了材料的流阻率、厚度、容量、孔隙率、纤维直径及背后空气层对其吸声性能的影响;并对模压金属纤维材料的结构因子作了探讨。
2) flux-flow resistivity
磁流阻率
3) flow resistance
流阻
1.
Experimental study on heat transfer and flow resistanceperformances of several enhanced tubes;
几种强化传热管的流阻和传热性能
2.
Investigations on heat transfer and flow resistance in the entrance section of shell side of shell and tube heat exchangers with longitudinal flow within tube bundles;
轴流型管壳式换热器壳程入口段传热与流阻研究
3.
Numerical analysis of air flow resistance and heat transfer between corrugated plates with channels of varied heights;
空气在不同高度波纹流道内的流阻与传热的数值分析
4) flowing resistance
流阻
5) fluid resistance
流阻
1.
This paper deals with che test and measurement of the performances of heat transfer and fluid resistance in the rear cooler of a air compressor by using transversally corrugated, spirally grooved and plain enhanced pipes as heat-transfering elements and compressed air and water as heat-exchanging media .
本文还对两种强化管的传热和流阻机理进行了探讨。
2.
In view of the generally existing problems of the leakage,unstability and the large loss of fluid resistance about the check gate of taper valve,this article analyses theoretically the cause of such leakage and puts forward some tentative ideas of improvement.
从理论上分析了截止阀锥形阀瓣存在的密封不稳定、流阻损失大及产生泄漏的原因 ,并提出了改进方
6) electrochemical impedance spectroscopy
交流阻抗
1.
Analysis on corrosion inhibition mechanism of BQA1 with electrochemical impedance spectroscopy;
BQA-1缓蚀机理的交流阻抗解析
2.
The electrochemical impedance spectroscopy (EIS) using a two-electrode system in a frequency range from 0.
001Hz的频率范围内,通过交流阻抗技术研究SiO电极在首次嵌锂反应中的电极过程。
参考词条
补充资料:多流道涂层模头提高生产率
美国EDI挤出模头公司(EDI)宣布,首个应用于基材的多流道液体贴近涂层模头,使加工者能够用单个模头同时完成两层或多层涂刷,从而获得比多阶段涂刷过程更高的生产率,并可避免在涂层各阶段间发生氧化和污损。
EDI透露,一家高性能电子薄膜生产商已经成功使用了双流道和三流道的EDI Ultracoat(R型)手动涂层模头,将两层和三层陶瓷砂浆涂刷到聚酯薄膜基材上。
涂层模头产品经理Jeffrey Seckora说:“涂层模头(即贴近涂层方法)预先将涂层液体的流量调节在一个恒定的速度,并作为一个完全封闭式系统,减少了空气排放物问题,因此比传统的辊式涂刷方法效率更高、更容易控制。多流道缝口模头的开发使加工者能一次完成两层或多层涂刷,从而使生产率和质量优势上升到一个全新的高度。”
Seckora指出,多流道Ultracoat模头还可用于其它方面,例如在完成纸张涂刷的过程中同时涂刷硅树脂脱离层和压敏黏合剂,以及将电解层和阴极层涂刷在薄膜电池上。
EDI工程师设计出的模头可产生形成层流的涂层流(涂层物质结合以后涂层仍很明显),从而成功地开发了多流道的Ultracoat系统。Seckora指出:“粘性液体更容易实现层流,就像塑料共挤中的熔体流。对于贴近涂层中采用的粘性较弱的液体,我们的工程师设计了一个流线化系统,使不同流动层相遇时不会发生紊乱或物质混合。”
在这幅Ultracoat(TM型)手动涂层模头的一端视图中,可以看见三个流道。流道的截面看似水滴型开口,缩小为狭窄的流道。在本图中,最下方的涂层是水平的,上方的两个涂层与之形成角度。三个涂层相遇后形成单一结构,从模唇处的出口缝流出,如图右下方所示。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。