Titanium bipolar plates are a high performance component designed for battery fuel cell systems. It is made of high-purity titanium material with excellent mechanical properties, corrosion resistance and electrical conductivity, providing reliable support and excellent performance for fuel cells. Through advanced manufacturing process, titanium bipolar plates ensure high precision and consistency, with flat surface and fine processing to ensure the stable operation of the battery fuel cell system and provide the best gas and liquid sealing performance. Parameter Material: titanium Size: according to the drawing Type: Etching / Chemical Machining, Other Machining Services Etching accuracy: Line width: 0.01mm; Aperture: 0.03mm; Tolerance: �±0.01mm Features 1.Lightweight design: The titanium bipolar plate is made of titanium material, which has the characteristics of light weight. Compared with traditional metal materials, such as steel, titanium material has a lower density, so it can reduce the overall weight of the fuel cell system. This is especially important for automotive and other mobile applications, improving energy efficiency and driving range. 2.High Electrical Conductivity: Titanium bipolar plates have excellent electrical conductivity and can effectively conduct electric current. This helps reduce energy loss and increases the efficiency and responsiveness of the fuel cell system. Good electrical conductivity can also help maintain stable current distribution and balance, and improve the operating stability of the system. 3.Corrosion resistance: Titanium material has excellent corrosion resistance and can resist the erosion of corrosive substances such as acid and alkali. In fuel cells, where acidic or alkaline environments are involved, the use of titanium bipolar plates can provide longer life and reduce maintenance requirements. 4.High temperature resistance: Titanium bipolar plates can maintain stable performance under high temperature conditions. Some parts of the fuel cell system may be exposed to high temperature environments, such as inside the fuel cell stack. Titanium's high temperature resistance makes it ideal for reliable operation in these demanding conditions.