Non-ferrous Metals
Adaptability For Unique Undertakings
High Performance
Our expertise in metal alloy formulation allows us to create custom solutions for mission-critical projects. We work closely with our lab partners to meticulously blend copper, magnesium, and zinc to meet precise composition ratios for optimal performance. Our strict adherence to quality standards results in alloys with exceptional high-temperature and corrosion resistance properties, surpassing even the most rigorous industry specifications.
High Performance
Our expertise in metal alloy formulation allows us to create custom solutions for mission-critical projects. We work closely with our lab partners to meticulously blend copper, magnesium, and zinc to meet precise composition ratios for optimal performance. Our strict adherence to quality standards results in alloys with exceptional high-temperature and corrosion resistance properties, surpassing even the most rigorous industry specifications.
Copper
Copper, a highly conductive and corrosion-resistant metal, offers various applications across multiple industrial fields. Copper alloys can be tailored through alloy composition and heat treatments to suit specific requirements. They are suitable for high-temperature, corrosion-resistance, ductility and malleability. The alloys are also softer than other metal ones, making them suitable for applications requiring flexibility and malleability.
Copper
Copper, a highly conductive and corrosion-resistant metal, offers various applications across multiple industrial fields. Copper alloys can be tailored through alloy composition and heat treatments to suit specific requirements. They are suitable for high-temperature, corrosion-resistance, ductility and malleability. The alloys are also softer than other metal ones, making them suitable for applications requiring flexibility and malleability.
Magnesium
Magnesium, a lightweight metal, is known for its high strength-to-weight ratio, thermal conductivity, and electrical conductivity. Its low density and high strength make it valuable in various mission-critical applications in diverse industries where weight reduction is crucial. Magnesium alloys have higher strength than aluminum alloys and are more machinable and castable than titanium alloys.
Magnesium
Magnesium, a lightweight metal, is known for its high strength-to-weight ratio, thermal conductivity, and electrical conductivity. Its low density and high strength make it valuable in various mission-critical applications in diverse industries where weight reduction is crucial. Magnesium alloys have higher strength than aluminum alloys and are more machinable and castable than titanium alloys.
Zinc
Zinc offers a wide range of industrial applications due to its excellent corrosion resistance, low melting point and high thermal conductivity. Its corrosion resistance properties make it ideal for galvanizing steel components to ward off rust. Zinc alloys, such as brass and nickel silver, have applications in various industries due to their strength and conductivity. Its low melting point and high thermal conductivity make it suitable for use in high-temperature applications such as soldering and welding.
Zinc
Zinc offers a wide range of industrial applications due to its excellent corrosion resistance, low melting point and high thermal conductivity. Its corrosion resistance properties make it ideal for galvanizing steel components to ward off rust. Zinc alloys, such as brass and nickel silver, have applications in various industries due to their strength and conductivity. Its low melting point and high thermal conductivity make it suitable for use in high-temperature applications such as soldering and welding.
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