High-temperature-resistant, high-strength and beryllium-copper-free wire and preparation method thereof
A high-temperature-resistant, high-strength technology, applied in cable/conductor manufacturing, conductors, conductive materials, etc., can solve problems such as the gap in comprehensive performance and high-temperature resistance, and achieve the effects of improving conductivity, reducing segregation, and reducing costs
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Embodiment 1
[0021] A high-temperature-resistant high-strength beryllium-free copper wire is prepared by the following steps:
[0022] S1. Put the high-purity copper, pure iron and covering agent blocks into the high-frequency induction melting furnace, heat until completely melted, keep warm and stir, add copper-nickel alloy, copper-strontium alloy, copper-indium alloy, magnesium strip and rare earth elements Lanthanum, heated to 1230°C, stirred and smelted to obtain copper alloy melt;
[0023] S2, carry out component detection to copper alloy melt, it comprises by weight percentage: Ni 0.2%, Fe 4.5%, Sr 0.1%, In 0.06%, Mg 0.2%, La 0.03%, the balance is copper;
[0024] S3. Drain the copper alloy solution obtained in S2 to the high-vacuum single-roller spin quenching and spray-casting system, pass in protective gas to vacuum, heat to 950°C for spray-casting, stop the rotation of the copper roll after complete cooling, and pass in air to balance air pressure to get thin strips;
[0025] ...
Embodiment 2
[0027] A high-temperature-resistant high-strength beryllium-free copper wire is prepared by the following steps:
[0028] S1. Put the high-purity copper, pure iron and covering agent blocks into the high-frequency induction melting furnace, heat until completely melted, keep warm and stir, add copper-nickel alloy, copper-strontium alloy, copper-indium alloy, magnesium strip and rare earth elements Lanthanum, heated to 1260°C, stirred and smelted to obtain copper alloy melt;
[0029] S2. Detecting the components of the copper alloy melt, which includes: Ni 0.5%, Fe 3%, Sr 0.25%, In 0.04%, Mg 0.35%, La 0.01%, and the balance is copper;
[0030] S3. Drain the copper alloy solution obtained in S2 to the high-vacuum single-roller spin quenching and spray-casting system, and introduce protective gas until the vacuum degree is 4×10 -5 Pa, heat to 970°C for spray casting, the roller speed is 20m / min, stop the copper roller rotation after it is completely cooled, and pass air to the e...
Embodiment 3
[0034] A high-temperature-resistant high-strength beryllium-free copper wire is prepared by the following steps:
[0035] S1. Put the high-purity copper, pure iron and covering agent blocks into the high-frequency induction melting furnace, heat until completely melted, keep warm and stir, add copper-nickel alloy, copper-strontium alloy, copper-indium alloy, magnesium strip and rare earth elements Lanthanum, heated to 1250°C, stirred and smelted to obtain copper alloy melt;
[0036] S2, carry out composition detection to copper alloy melt, it comprises by weight percentage: Ni 0.3%, Fe 3.5%, Sr0.15%, In 0.05%, Mg 0.25%, La 0.02%, balance is copper;
[0037] S3. Drain the copper alloy solution obtained in S2 to the high-vacuum single-roller spin quenching and spray-casting system, and introduce protective gas until the vacuum degree is 6×10 -5 Pa, heat to 950°C for spray casting, the roller speed is 35m / min, stop the copper roller rotation after it is completely cooled, and pa...
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