new material
Silicon nitride ceramic piston rods, also known as high-temperature wear-resistant ceramic stirring shaft cores, are advanced structural components designed for applications requiring superior mechanical strength, thermal stability, and wear resistance. Manufactured through precision sintering and machining processes, these rods provide excellent corrosion resistance, low friction, and exceptional durability under extreme operating conditions. They are widely used in industrial mixing systems, high-temperature fluid handling, aerospace engineering, semiconductor processing, and precision machinery.
Product Overview
The Silicon Nitride Ceramic Piston Rod (high-temperature, wear-resistant ceramic stirring shaft core) is precisely manufactured from high-purity silicon nitride (Si₃N₄) material, specifically designed for use in high-temperature, high-pressure, and chemically corrosive environments. This product offers excellent mechanical strength, wear resistance, heat resistance, and chemical stability, making it widely applicable in industries such as automotive, aerospace, and petrochemicals. It effectively handles demanding workloads in extreme conditions, ensuring outstanding performance and enhancing the stability and efficiency of mechanical systems.
Features
- Precision Surface Design: The surface of the piston rod is polished to reduce friction, extend service life, improve sealing performance, reduce energy loss, and increase overall mechanical efficiency.
- Outstanding Wear and Heat Resistance: With a Vickers hardness of 1500 HV, the silicon nitride ceramic ensures durability in high-friction environments. It can withstand operating temperatures up to 1200°C, maintaining stability and longevity under high-temperature conditions.
- Superior Chemical Stability: The piston rod is resistant to high-pressure and chemically corrosive environments, making it ideal for use in petrochemical and specialty chemical processing applications, ensuring reliable performance in harsh operating conditions.
- Thermal Shock Resistance: With a thermal shock resistance coefficient of 500°C, it can withstand rapid temperature changes, ensuring the piston rod continues to operate smoothly even during drastic temperature fluctuations.
Applications
- Automotive Industry: Used in engine and hydraulic systems, providing heat resistance and wear resistance to ensure stable operation in high-temperature and high-pressure environments.
- Aerospace: Used in aerospace engines and spacecraft critical components, where the silicon nitride piston rod provides essential wear and high-temperature resistance, enhancing equipment safety and efficiency.
- Petrochemicals: In petroleum refining and chemical processing, the silicon nitride ceramic piston rod resists chemical corrosion and high-temperature fluctuations, ensuring long-term system stability.
