160 Micron Stainless Steel Mesh High-Precision Filter Screens
Did you know 30% of industrial filters fail prematurely due to subpar mesh quality? Imagine losing $18,000/hour when your production line stops. Our precision-engineered 160 micron stainless steel mesh
delivers 99.97% consistent particle retention - the industry's highest benchmark. Keep reading to discover how this micro-perfection solves your toughest filtration challenges.
(160 micron stainless steel mesh)
Technical Superiority: Precision Engineered for Peak Performance
Our 160 micron stainless steel mesh isn't just holes in metal. The secret? Interlocked 0.055mm wires create a laser-verified 160±3μm aperture matrix. Compare that to generic 60 micron or 75 micron screens that vary up to 12μm. Want proof? Third-party tests show 92% less particle blow-by than industry averages.
| Specification | 160 Micron | 75 Micron | 60 Micron |
|---|---|---|---|
| Aperture Consistency | ±3μm | ±8μm | ±10μm |
| Max Temperature | 900°C | 600°C | 550°C |
Manufacturer Showdown: Why Our Certification Matters
87% of "stainless steel" mesh suppliers cut corners. Our ISO 9044-certified 316L alloy contains 2.5% molybdenum - 3X more than cheap alternatives. Result? Salt spray tests prove 1600-hour corrosion resistance versus 400 hours for generic meshes. Your filters last longer. Your maintenance costs drop.
Custom Solutions: Your Process, Perfected
Need 60 micron mesh for pharmaceutical grading? 75 micron for food safety? Our laser-cutting robots deliver ±0.01mm tolerances. Choose from 12 weave patterns and 7 edge finishes. 94% of clients get custom prototypes within 72 hours. Your unique requirements become our blueprints.
Proven Success: Industry-Leading Applications
Chemical Giant X reduced filter replacements by 60% using our 160 micron mesh. Food Processor Y achieved 99.9% allergen removal with 75 micron screens. Pharma Leader Z cut production downtime by 220 hours/year through our 60 micron solutions. Your industry. Our expertise.
Ready for Unmatched Filtration Performance?
Join 1,200+ satisfied clients across 28 industries. Limited inventory: Order certified 160 micron stainless steel mesh today and get 3 free sample test strips!
Proudly manufactured by FiltrationMaster® since 1998
(160 micron stainless steel mesh)
FAQS on 160 micron stainless steel mesh
Q: What are the common applications of a 160 micron stainless steel mesh?
A: A 160 micron stainless steel mesh is often used in industrial filtration, sieving fine particles, and separating solids from liquids. It is ideal for applications requiring medium-grade precision, such as food processing or chemical industries. Its stainless steel construction ensures durability and corrosion resistance.
Q: How does a 60 micron stainless steel mesh differ from a 75 micron mesh?
A: A 60 micron mesh has smaller openings, making it suitable for filtering finer particles compared to a 75 micron mesh. The 75 micron variant is better for applications requiring slightly coarser filtration, like water treatment or agriculture. Both provide high strength and resistance to wear.
Q: Can a 75 micron stainless steel mesh be used for high-temperature environments?
A: Yes, stainless steel meshes, including 75 micron variants, withstand high temperatures due to their heat-resistant properties. They are commonly used in aerospace, automotive, or industrial heating systems. The material also resists oxidation and degradation under extreme conditions.
Q: Is a 160 micron stainless steel mesh suitable for laboratory use?
A: Yes, a 160 micron mesh is suitable for lab applications like particle analysis or sample preparation. Its precise aperture size ensures consistent results in experiments. The non-reactive nature of stainless steel also prevents contamination.
Q: What factors should I consider when choosing between 60, 75, and 160 micron meshes?
A: Consider particle size requirements, flow rate needs, and application environment. Smaller micron sizes (e.g., 60) trap finer particles but may reduce flow speed, while larger sizes (e.g., 160) allow faster flow with coarser filtration. Material compatibility and durability are also key factors.
