Copper alloy with circular disc-shaped precipitate and preparation method thereof
A copper alloy and precipitate technology is applied in the field of copper alloys with disc-shaped precipitates and its preparation, which can solve problems such as reducing electrical conductivity, and achieve the effects of improving different properties, good electromagnetic shielding effect, and excellent electrical conductivity.
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Embodiment 1
[0038] Copper alloys were prepared according to the following process flow:
[0039] (1) Melting
[0040] Add electrolytic copper, tantalum powder covered with copper foil, pure nickel, cobalt powder, and copper-silicon alloy in the order of melting in a non-vacuum induction furnace. Raise the temperature to 1300 ° C. After the melt is completely melted, keep it warm for 30 minutes. , add titanium-copper master alloy (titanium ≤ 5%), copper-cerium master alloy, and then keep the temperature for 10 minutes, then add zirconium whose surface is copper-plated; After 10 minutes, fully stir, let stand for 5 minutes, and then cast out of the furnace.
[0041] (2) solid solution
[0042] The alloy billet was heated to 900°C in a heating furnace and kept for 5 hours.
[0043] (3) Face milling
[0044] Face milling is carried out on the alloy, and the upper and lower surfaces are milled 1mm each.
[0045] (4) hot rolling
[0046] The alloy is heated, the heating temperature is 900...
Embodiment 2
[0055] Copper alloys were prepared according to the following process flow:
[0056] (1) Melting
[0057] Add electrolytic copper, tantalum powder coated with copper foil, pure nickel, cobalt powder, and copper-silicon alloy into the non-vacuum induction furnace for smelting, and raise the temperature to 1320°C until the melt is completely melted, then keep it warm for 30 minutes , adding titanium-copper master alloy (titanium ≤ 5%) and copper-cerium master alloy, then keeping the temperature for 10 minutes, and then adding zirconium whose surface is copper-plated. After fully degassing and removing impurities, at a casting temperature of 1250°C, keep warm for 10 minutes, fully stir, stand still for 5 minutes, and then cast out of the furnace.
[0058] (2) Solution treatment
[0059] The alloy billet was heated to 940°C in a heating furnace and kept for 5 hours.
[0060] (3) Face milling
[0061] Face milling is carried out on the alloy, and the upper and lower surfaces are ...
Embodiment 3
[0072] Copper alloys were prepared according to the following process flow:
[0073] (1) Melting
[0074] Add electrolytic copper, tantalum powder covered with copper foil, pure nickel, cobalt powder, and copper-silicon alloy into the non-vacuum induction furnace for smelting, and raise the temperature to 1380 ° C. After the melt is completely melted, keep it warm for 30 minutes. , adding titanium-copper master alloy (titanium ≤ 5%) and copper-cerium master alloy, then keeping the temperature for 10 minutes, and then adding zirconium whose surface is copper-plated. After fully degassing and removing impurities, at the casting temperature of 1220 ° C, after holding the heat for 10 minutes, fully stirring, standing still for 5 minutes, and then casting out of the furnace.
[0075] (2) Solution treatment
[0076] The alloy billet was heated to 980°C in a heating furnace and kept for 5 hours.
[0077] (3) Face milling
[0078] Face milling is carried out on the alloy, and the ...
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