With the development of the new era, science and technology are also advancing with the times.
Modern Industries offers a complete range of products for every step of laboratory biological processing, including a wide variety of filter membranes.
Today I will take you to learn more about the clean room high-efficiency filtration membrane.
In order to explain the diffusion mechanism of particle entrapment, we first need to do a quick review of the kinetic theory of gases.
This theory explains that gases are composed of a large number of molecules, and the molecular size is very small relative to the distance between molecules.
These molecules behave like convex spheres, moving together in a straight line when they do not collide with each other.
In fact, however, these molecules collide with each other so violently that they move in random, zigzag paths.
This random motion is called Brownian motion.
The high air permeability and high interception efficiency of the clean room high-efficiency filter membrane enable the vacuum cleaner to not only effectively intercept airborne dust particles, but also allow the vacuum cleaner to maintain low energy consumption, and the material can be washed with water to restore performance and achieve reuse, and the filtration accuracy is high. It can reach U15 level or above (99.9995%) or even U17 level (99.999995%), which can fully meet the purification requirements of high-precision electronic product processing workshops such as semiconductors and chips.
It is a clean room high-efficiency filtration membrane manufacturer integrating production, sales and customization.
The company has advanced ptfe film production lines and composite production lines.
The company’s products are widely used in various fields. With strong technical force and strict management system, the company ensures that everything focuses on the interests of users and provides users with high-tech, high-quality, high-performance, and high-level products.
Interested parties can enter the store for consultation.
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