The developed high-conductivity and high-temperature resistant microalloy materials JT102 and JT112, featuring high conductivity and resistance to high-temperature softening, are applied in semiconductor heat dissipation components, addressing issues related to the service life and stability of semiconductor chips and new energy batteries.

The JT105 copper-tin alloy, which is highly thermally conductive and strong, has been developed. It boasts advantages such as high thermal conductivity and high burst pressure. When applied to new refrigerant heat exchanger tubes, it addresses the issue of leakage commonly encountered in traditional copper tubes used in central air conditioning systems.

The developed high-conductivity and high-temperature resistant winding wire JT108 alloy is applied to humanoid robots and drone drive motors, solving the problem of heating failure of high-current and high-power micro-motors under harsh working conditions.

The developed high-strength and wear-resistant JT906 alloy, characterized by high strength and low friction coefficient, is applied to wear-resistant components of hydraulic elements, solving the long-standing problem of relying on imports for core components in the hydraulic industry.

The developed copper-chromium-zirconium alloy rod and wire with large length and heavy coil weight have broken through the traditional extrusion limitations, featuring high strength, high conductivity, and large length without welding points. They are applied to the new generation of high-speed rail contact wire, solving key difficulties in the new generation of high-speed railway system.