Stainless steel plain weave wire mesh is one of the most commonly used woven wire mesh products in industrial filtration systems. With a simple over-under weaving structure, plain weave wire mesh offers uniform aperture size and consistent mechanical strength, making it suitable for a wide range of filtration and separation applications.

Manufactured from high-quality stainless steel materials such as SS304 and SS316, plain weave wire mesh provides excellent corrosion resistance and durability in demanding working environments. The stable weaving structure ensures that the mesh maintains its shape and filtration accuracy during long-term use, even under continuous pressure or vibration.

In industrial applications, stainless steel plain weave wire mesh is widely used in chemical processing, food and beverage filtration, pharmaceutical production, environmental protection, and general industrial screening. The uniform mesh opening allows precise control of particle separation while maintaining a stable flow rate, which is essential for efficient filtration performance.

To meet different application requirements, stainless steel plain weave wire mesh can be customized in various mesh counts, wire diameters, widths, and lengths. It is also available in different forms, including rolls, sheets, discs, and other processed mesh components. Custom cutting, punching, and welding services are supported to provide ready-to-use filtration solutions.

Quality control is an essential part of the manufacturing process. From raw material inspection to finished product testing, strict inspection procedures are applied to ensure consistent quality. Mesh count measurement, aperture inspection, tensile strength testing, and dimensional inspection are conducted before delivery to guarantee stable performance and reliability.

With its versatile applications, flexible customization options, and strict quality control, stainless steel plain weave wire mesh continues to play an important role in industrial filtration and separation systems worldwide.