Babbitt alloy is a high-performance sliding bearing material known for its low friction, wear resistance, anti-seize properties, and ability to withstand impact loads. These attributes have made it the core material for sliding bearings in high-end machinery. This tin-based babbitt alloy is produced through precise composition control and stringent impurity management, fully meeting the high standards required for high-performance bearing materials.

From raw material selection and alloy smelting to final product inspection, the entire production process follows a strict quality control system. This tin babbitt complies with ASTM B23 Grade 2 standards, and every batch undergoes multidimensional risk-based testing, including precise chemical composition analysis, mechanical property testing, anti-friction performance evaluation, and more. These inspections ensure the tin-based babbitt fully complies with the technical specifications and ensures stable and reliable operation in customer equipment.

Applications
The tin-based babbitt alloy is designed for applications requiring high bearing performance, such as:

• Power Equipment: Key bearing material for steam turbines and hydro turbines to ensure stable operation under high-speed and heavy-load conditions.
• General Machinery: Key sliding bearing components for compressors and large motors, capable of handling harsh working conditions with high speeds and heavy loads.
• Precision Equipment: High-accuracy sliding components in precision machine tools and advanced instruments, meeting low-friction and high-stability requirements.

• Excellent Anti-Friction & Wear Resistance
  The hard particles formed by antimony (Sb) and copper (Cu) are uniformly dispersed within the tin matrix, reducing friction and effectively resisting wear, thereby significantly extending bearing service life.
• Outstanding Embeddability & Conformability
  The tin-based babbitt possesses excellent toughness, allowing it to embed foreign hard particles and conform to minor shaft deformation. This prevents issues such as shaft seizure or bearing burnout.
• Strong Impact Load Resistance
  The combination of the toughness from the tin-based matrix and the support from the hard particles enables the alloy to withstand substantial impact loads, making it suitable for dynamic operating conditions in power equipment.