Development Of An Soi-Based Micro Check Valve

Int. J. Comput. Eng. Sci. Pub Date : 2003-09-01 DOI:10.1142/S1465876303002064
M. Hu, H. Du, S. Ling, Bo Liu
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引用次数: 2

Abstract

This paper presents a bulk micromachined check valve with very high frequency and extremely low leak rates. The valve is designed to have a hexagonal orifice, a hexagonal membrane flap and three flexible tethers. The three elbow-shaped flexible tethers are used both to secure the membrane flap to the valve seat and to abtain a large flap displacement in the forward flow direction. SOI wafer and DRIE technology are used to implement this micro valve. A very simple farbication process has been developed, and only two photolithographic masks are employed. Preliminary testing on a 1.5 milimeters size check valve shows that a maximum flow rate (DI water) of 35.6ml/min was obtained at pressure drop of 65.5kPa and negligible leakage rate in the reverse flow direction observed at pressure up to 600kPa.
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一种基于土壤的微型止回阀的研制
本文介绍了一种具有非常高频率和极低泄漏率的大块微机械单向阀。该阀被设计成具有一个六边形孔,一个六边形膜瓣和三个柔性系索。三个肘形柔性系索既用于将膜瓣固定在阀座上,又用于使膜瓣在向前流动方向上有较大的位移。微阀采用SOI晶片和DRIE技术实现。开发了一种非常简单的制造工艺,仅使用两个光刻掩模。初步试验表明,在压力降为65.5kPa时,止回阀的最大流量(DI水)为35.6ml/min,在压力高达600kPa时,反向泄漏率可以忽略不计。
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Int. J. Comput. Eng. Sci.
Int. J. Comput. Eng. Sci.
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