GH5605 superalloy: excellent performance and wide range of applications.
GH5605 is a Co-Cr-Ni-based solution-strengthened deformed superalloy, which is widely used in the manufacture of high-temperature parts such as aero engines. Below are the key properties, ingredient content and performance of GH5605, as well as a simple comparison with other products.
Product features:1High Temperature Application Range:
GH5605 alloy is designed to withstand high temperatures, and its service temperature is below 1000 degrees Celsius, ensuring excellent performance under extreme operating conditions.
2.Solution Strengthening Mechanism:
The alloy is solution strengthened by the addition of CR and W, which effectively improves the durability and creep strength below 815 degrees Celsius, making it ideal for high-temperature applications.
3.Wide range of applications:
GH5605 is mainly used in the manufacture of high-temperature components for aero engines, including key components such as guide vanes, turbine outer rings and vortex devices. Its excellent high-temperature performance makes it highly sought after in the aerospace industry.
Composition: The chemical composition of GH5605 alloy is as follows:
Carbon (c): 005-0.15%
Silicon (Si): 04%
Manganese (mn): 10-2.0%
Phosphorus (p): 004%
Sulfur (s): 003%
Chromium (CR): 19-21%.
Nickel (Ni): 9-11%.
Cobalt (CO): Margin.
Iron (Fe): 30%
Performance advantages: low density: The density of GH5605 is 913 g cm3, which is relatively low, helps to reduce the overall weight of the part.
Magnetic Non-Magnetic: The alloy is non-magnetic and meets the requirements for high-temperature operating conditions.
Excellent modulus of elasticity: As the temperature increases, GH5605 retains a high modulus of elasticity, ensuring that it does not lose its strength and stability in high temperature environments.
Comparison with other products:
GH5605 alloy exhibits significant advantages over other superalloys (e.g., GH605) in the following aspects:
Temperature Range: GH5605 is suitable for a wider range of temperatures and is able to maintain stability at higher temperatures, making it even more advantageous in extreme heat conditions.
Reinforcement mechanism: GH5605 adopts the solution strengthening mechanism of CR and W, which has better durability and creep strength at high temperatures than other alloys.
Applications: GH5605 is widely used in key components of aero engines, showing excellent performance in the aerospace industry.
GH5605 superalloy has become an important material choice in the aviation industry due to its excellent performance and wide range of applications, providing strong support for the reliability and stability of parts in high-temperature environments.