Sheet Metal Materials

Stainless steel 316 sheet is an austenitic stainless steel containing molybdenum, which gives it superior corrosion resistance compared to 304, especially in chloride environments. The 316 stainless steel sheet not only offers excellent resistance to acids, alkalis, and pitting corrosion, but also has good toughness and weldability, making it resistant to cracking or deformation during processing. With a smooth and attractive surface that is easy to clean and maintain, it is ideal for use in chemical equipment, ships, medical devices, marine facilities, and high-end kitchen equipment where high corrosion resistance is required.

304 stainless steel is a commonly used austenitic stainless steel material, widely applied in various equipment and structural components due to its excellent corrosion resistance and workability. 304 stainless steel sheets have outstanding resistance to acids and alkalis, maintaining long-term stability in atmospheric conditions, water, and most chemical media. At the same time, they offer good toughness and strong weldability, making them resistant to cracking or deformation during forming and processing. With a smooth surface that is easy to clean and maintain, 304 stainless steel is widely used in kitchenware, medical equipment, and architectural decoration.

Mild steel is widely used in sheet metal processing due to its excellent plasticity and weldability, and it is not prone to cracking after processing. This material is susceptible to oxidation and rusting, so post-treatment (such as galvanizing, painting, and powder coating) is required to enhance surface protection.

The core advantage of copper materials lies in their exceptional electrical and thermal conductivity, combined with excellent corrosion resistance, malleability, and ductility. This allows copper to be easily fabricated into a wide range of complex shapes, making it highly valuable across multiple industries.

C101 (commonly known as oxygen-free electronic copper) contains virtually no oxygen impurities, offering top-tier purity and conductivity. It is the preferred material for applications with extremely high requirements for material purity and electrical efficiency. However, its cost is higher than C110, making it more suitable for scenarios where peak conductivity is critical and cost is not the primary concern, such as high-precision electronic components and key conductive parts.

C110, an oxygen-containing derivative of C101, contains only trace amounts of oxygen. While its purity, conductivity, and corrosion resistance are slightly lower than C101, it still meets the core requirements of most industrial applications. With lower cost and excellent formability, C110 is commonly used in heat exchangers, industrial wiring, and piping systems.

Aluminum 5052 is a lightweight, high-strength alloy with outstanding corrosion resistance. Its excellent formability and weldability make it ideal for complex shapes and durable parts, even in harsh environments. Combining performance with aesthetic appeal, 5052 is a trusted choice for marine, automotive, industrial, and architectural applications.