new material
Magnesium-yttrium alloy (MgY30) is an advanced metallurgical material recognized for its superior high-temperature stability, oxidation resistance, and mechanical durability. The addition of yttrium enhances corrosion protection, grain refinement, and structural integrity, making it ideal for aerospace components, industrial machinery, precision casting, and high-performance electronics. Magnesium-yttrium alloy plays a crucial role in sustainable engineering, precision metallurgy, and innovative material solutions.
Product Overview
MgY30 magnesium-yttrium alloy is a high-purity magnesium-based alloy primarily composed of magnesium and yttrium. It offers excellent high-temperature resistance, castability, corrosion resistance, and mechanical properties. This alloy is widely used in high-temperature and high-load environments, particularly in applications that require high strength and excellent corrosion resistance. By adding yttrium to the alloy, it effectively refines the grain structure, improves mechanical properties, enhances high-temperature performance, and boosts its performance in harsh environments.
Key Features
- Excellent High-Temperature Resistance: The alloy provides excellent high-temperature performance, making it suitable for use in high-temperature environments.
- Improved Castability: The refined grain structure improves castability, reduces oxidation, and ensures the quality of the casting process.
- Enhanced Mechanical Properties: The alloy exhibits superior mechanical properties at both room and high temperatures, with excellent creep resistance.
- Corrosion Resistance: The alloy’s enhanced corrosion resistance prolongs its service life in harsh environments.
- Improved Workability: The refined grain structure improves the workability of thin plates, making it ideal for large-scale production and processing.
Applications
- Aerospace: Used in aerospace components that require high-temperature and corrosion resistance, offering superior high-temperature performance and strength.
- Automotive Industry: Widely applied in automotive engine parts and structural materials to improve mechanical properties and corrosion resistance under high-temperature conditions.
- Metallurgical Industry: Used in the casting of aluminum-magnesium alloys and other alloys to enhance casting performance and improve the mechanical properties of the alloy.
- High-Temperature Materials Manufacturing: Suitable for producing high-temperature and high-strength materials, particularly for extreme environment engineering applications.
- Energy Sector: Used in energy equipment, especially for critical components in high-temperature, high-pressure, and highly corrosive environments.
