(1) 304 Stainless Steel
Composed of 18% chromium and 8% nickel, 304 stainless steel provides an excellent balance of performance and cost-efficiency.
It is widely used in general water supply systems, household plumbing, and food processing due to its strong corrosion resistance and durability.
Ideal for environments where moderate corrosion protection is sufficient and long-term reliability is required.
(2) 304L Stainless Steel
This is a low-carbon version of 304, specifically designed to minimize intergranular corrosion after welding.
It is commonly used in nuclear power facilities, precision medical devices, and other high-precision engineering projects.
The reduced carbon content ensures structural stability and prevents potential material degradation over extended service life.
(3) 316 Stainless Steel
Enhanced with 2%-3% molybdenum, 316 stainless steel exhibits superior resistance to chloride-induced corrosion.
Perfect for coastal regions, chemical plants, and high-corrosion industrial environments where standard 304 steel may fail.
It ensures long-lasting performance even under aggressive operating conditions, protecting both the piping system and transported media.
(4) 316L Stainless Steel
A low-carbon variant of 316, combining higher corrosion resistance with improved mechanical strength.
Commonly applied in extreme environments such as deep-sea oil extraction and nuclear power projects.
Offers exceptional durability, reliability, and safety for critical piping applications.
(5) Specialty Stainless Steel Materials
• 201 Stainless Steel: Cost-effective with low nickel content; suitable for short-term or non-critical applications, but prone to rust under high-moisture conditions.
• Ferritic Stainless Steel: Provides excellent thermal conductivity but moderate corrosion resistance; widely used in cookware and heat-exchange components.
• Martensitic Stainless Steel: Extremely hard and mechanically strong, ideal for industrial blades and machinery parts, but not recommended for fluid transport.
