【 Summary Description 】 Flow measurement is a science that studies the variation of material mass, and the law of mass interconversion is the basic law of the development of the relationship between things. Therefore, its measurement object is no longer limited to traditional pipeline liquids, and there is a problem of flow measurement in any place where quantitative changes need to be mastered. Below, the editor of Gongcai.com will take a look at micro liquid flow measurement and how to choose the appropriate flow measurement?

Flow measurement is a science that studies the variation of material mass, and the law of mutual variation of mass is the basic law of the development of the relationship between things. Therefore, its measurement object is no longer limited to traditional pipeline liquids, and there is a problem of flow measurement in any place where quantitative changes need to be mastered. Below, the editor of Gongcai.com will take a look at micro liquid flow measurement and how to choose the appropriate flow measurement?

Liquid is one of the four major forms of matter. It has no definite shape and is often influenced by the container. But its volume remains fixed in an environment with constant pressure and temperature.

In addition, the liquid exerts pressure on the edges of the container, just like any other state of matter. This pressure is transmitted in all directions, not only without reduction but also increases with depth (the deeper the water, the greater the water pressure). If you want to measure liquids, you can use the American Siargo microfluidic flowmeter LF6000 series recommended by Gongcaiwang.

The LF6000 series microfluidic flowmeter is manufactured using the company's independently developed M EM S Thermal Time of Flight (TTO F) sensing and packaging technology. The product has a wide range, high accuracy, and good reliability. Moreover, the product shell material is chemically stable PEEK, and the unique MEMS sensor chip structure and special packaging technology enable the maximum working pressure of the sensor to reach 1.0 MPa. It can be widely applied in various fields such as microfluidic flow measurement, pharmaceutical process control, chemical stoichiometry, gene sequencing, scientific research experiments, and medical automation.

Features of the LF6000 series Siargo microfluidic flowmeter from the United States:

Adopting the thermal time-of-flight (TTO F) technology of M EM S

Range ratio greater than 100:1

Good temperature effect

Mechanical interface U N F 1/4? - 28 or N PT

Dead space less than 7m L

Bluetooth communication facilitates cloud data storage