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Available in woven (plain/twill/dutch weave) and welded types, with mesh size 0.01mm to 100mm and wire diameter 0.02-5.0mm. Compliant with ASTM E2016 standards, they are used in industrial filtration, architectural protection, and agricultural screening.
Diverse Material Options: 304 stainless steel (cost-effective, corrosion-resistant in fresh water); 316L stainless steel (coastal/chemical environments, corrosion rate <0.008mm/year); 430 (magnetic, food contact approved). Duplex steel for high-strength applications (tensile strength ≥800MPa).
Precise Mesh Control: Woven meshes offer mesh size 0.01-50mm (plain weave) and 0.5-100mm (twill weave); welded meshes for 1-100mm (wire diameter ≥1.0mm). Mesh tolerance is ±5% for woven, ±3% for welded.
Customizable Specifications: Sheet size up to 4m × 10m (woven) and 2m × 6m (welded); roll length up to 50m. Surface treatments include annealing (softening), pickling (corrosion resistance), and powder coating (color customization).
Multi-Functional Performance: Woven meshes for fine filtration (0.01-1mm); welded meshes for heavy-duty protection (load-bearing up to 500kg/m²). High-temperature resistance up to 500°C (316L) for industrial ovens.
Industrial Filtration: A Chinese chemical plant used 316L dutch weave meshes (0.5mm mesh), filtering catalyst particles with 99% efficiency and reducing product impurities by 30%. The meshes lasted 8 years vs. 2 years for plastic meshes.
Architectural Protection: A US high-rise used welded 304 meshes (5mm mesh, 3mm wire) for balcony railings, withstanding 2.0kN/m² wind load and enhancing safety—complied with IBC 2018 standards.
Agricultural Screening: A Brazilian coffee farm adopted 2mm woven meshes, sorting coffee beans by size and increasing premium bean yield by 15%. The corrosion-resistant mesh withstood 90% RH humidity in storage.
Q: What’s the difference between plain weave and twill weave meshes?
A: Plain weave (simple over-under pattern) is for fine filtration (≤1mm mesh) but has lower strength; twill weave (2-over-2-under) offers higher strength (30% stronger than plain) for medium mesh (1-10mm) and better wear resistance.
Q: Which material is suitable for food contact (e.g., sifting flour)?
A: 304 or 316L stainless steel (compliant with FDA 21 CFR Part 177). 430 is also acceptable but may rust in moist food environments. Avoid galvanized meshes—zinc coating is toxic for food.
Q: Can stainless steel meshes be cut to custom shapes?
A: Yes, use laser cutting (for precision shapes, tolerance ±0.5mm) or shearing (for simple shapes). Welded meshes require edge trimming after cutting to remove burrs; woven meshes need fray prevention (sewing or welding edges).
Q: How to prevent mesh corrosion in coastal areas?
A: Use 316L stainless steel and apply a fluoropolymer coating (PVDF) for extra protection. Clean quarterly with fresh water (5-8 bar pressure) to remove salt deposits—extends life by 10 years.
Available in woven (plain/twill/dutch weave) and welded types, with mesh size 0.01mm to 100mm and wire diameter 0.02-5.0mm. Compliant with ASTM E2016 standards, they are used in industrial filtration, architectural protection, and agricultural screening.
Diverse Material Options: 304 stainless steel (cost-effective, corrosion-resistant in fresh water); 316L stainless steel (coastal/chemical environments, corrosion rate <0.008mm/year); 430 (magnetic, food contact approved). Duplex steel for high-strength applications (tensile strength ≥800MPa).
Precise Mesh Control: Woven meshes offer mesh size 0.01-50mm (plain weave) and 0.5-100mm (twill weave); welded meshes for 1-100mm (wire diameter ≥1.0mm). Mesh tolerance is ±5% for woven, ±3% for welded.
Customizable Specifications: Sheet size up to 4m × 10m (woven) and 2m × 6m (welded); roll length up to 50m. Surface treatments include annealing (softening), pickling (corrosion resistance), and powder coating (color customization).
Multi-Functional Performance: Woven meshes for fine filtration (0.01-1mm); welded meshes for heavy-duty protection (load-bearing up to 500kg/m²). High-temperature resistance up to 500°C (316L) for industrial ovens.
Industrial Filtration: A Chinese chemical plant used 316L dutch weave meshes (0.5mm mesh), filtering catalyst particles with 99% efficiency and reducing product impurities by 30%. The meshes lasted 8 years vs. 2 years for plastic meshes.
Architectural Protection: A US high-rise used welded 304 meshes (5mm mesh, 3mm wire) for balcony railings, withstanding 2.0kN/m² wind load and enhancing safety—complied with IBC 2018 standards.
Agricultural Screening: A Brazilian coffee farm adopted 2mm woven meshes, sorting coffee beans by size and increasing premium bean yield by 15%. The corrosion-resistant mesh withstood 90% RH humidity in storage.
Q: What’s the difference between plain weave and twill weave meshes?
A: Plain weave (simple over-under pattern) is for fine filtration (≤1mm mesh) but has lower strength; twill weave (2-over-2-under) offers higher strength (30% stronger than plain) for medium mesh (1-10mm) and better wear resistance.
Q: Which material is suitable for food contact (e.g., sifting flour)?
A: 304 or 316L stainless steel (compliant with FDA 21 CFR Part 177). 430 is also acceptable but may rust in moist food environments. Avoid galvanized meshes—zinc coating is toxic for food.
Q: Can stainless steel meshes be cut to custom shapes?
A: Yes, use laser cutting (for precision shapes, tolerance ±0.5mm) or shearing (for simple shapes). Welded meshes require edge trimming after cutting to remove burrs; woven meshes need fray prevention (sewing or welding edges).
Q: How to prevent mesh corrosion in coastal areas?
A: Use 316L stainless steel and apply a fluoropolymer coating (PVDF) for extra protection. Clean quarterly with fresh water (5-8 bar pressure) to remove salt deposits—extends life by 10 years.
