DESCRIPTION
C5240HQ Copper Alloy is an enhanced version of Phosphor Bronze C5240, designed to meet more demanding technical requirements in industrial and electronic applications. C5240HQ is highly regarded for its combination of hardness, tensile strength, and superior corrosion resistance, along with good elasticity and electrical conductivity.
Key characteristics of C5240HQ Copper Alloy:
- Chemical Composition:
- C5240HQ contains approximately 10% tin (Sn), a small amount of phosphorus (P), with the remainder being copper (Cu). This composition provides the alloy with superior mechanical and chemical properties, particularly in terms of strength and wear resistance.
- Physical Properties:
- High Hardness and Tensile Strength: C5240HQ offers high hardness, which enhances its wear resistance and tensile strength, meeting stringent requirements during use.
- Corrosion Resistance: This alloy has excellent corrosion resistance in various environments, especially in highly corrosive conditions.
- Electrical and Thermal Conductivity: C5240HQ maintains good electrical and thermal conductivity, making it suitable for electrical and electronic applications.
- Applications:
- Electrical and Electronics Industry: Used in electronic components, connectors, and electrical contacts due to its good conductivity and high mechanical strength.
- Spring and Elastic Component Manufacturing: C5240HQ is commonly used for producing springs and components requiring high elasticity and wear resistance.
- Automotive and Aerospace Industries: Applied in components requiring high precision and durability, such as precision mechanical parts.
- Musical Instrument Manufacturing: Due to its good elasticity, this alloy is also used in the production of strings and other musical instrument parts.
- Shape and Size:
- C5240HQ copper alloy is typically available in forms such as sheets, wires, bars, or tubes, catering to different application requirements.
Manufacturing and Processing:
- C5240HQ is produced through casting, rolling, and special heat treatment processes to achieve the desired mechanical properties. The alloy can then be further processed through methods such as cutting, stamping, and bending.
(Source: Internet)
Key characteristics of C5240HQ Copper Alloy:
- Chemical Composition:
- C5240HQ contains approximately 10% tin (Sn), a small amount of phosphorus (P), with the remainder being copper (Cu). This composition provides the alloy with superior mechanical and chemical properties, particularly in terms of strength and wear resistance.
- Physical Properties:
- High Hardness and Tensile Strength: C5240HQ offers high hardness, which enhances its wear resistance and tensile strength, meeting stringent requirements during use.
- Corrosion Resistance: This alloy has excellent corrosion resistance in various environments, especially in highly corrosive conditions.
- Electrical and Thermal Conductivity: C5240HQ maintains good electrical and thermal conductivity, making it suitable for electrical and electronic applications.
- Applications:
- Electrical and Electronics Industry: Used in electronic components, connectors, and electrical contacts due to its good conductivity and high mechanical strength.
- Spring and Elastic Component Manufacturing: C5240HQ is commonly used for producing springs and components requiring high elasticity and wear resistance.
- Automotive and Aerospace Industries: Applied in components requiring high precision and durability, such as precision mechanical parts.
- Musical Instrument Manufacturing: Due to its good elasticity, this alloy is also used in the production of strings and other musical instrument parts.
- Shape and Size:
- C5240HQ copper alloy is typically available in forms such as sheets, wires, bars, or tubes, catering to different application requirements.
Manufacturing and Processing:
- C5240HQ is produced through casting, rolling, and special heat treatment processes to achieve the desired mechanical properties. The alloy can then be further processed through methods such as cutting, stamping, and bending.
(Source: Internet)