KR970065750A - Copper-Zirconium (Zr) -Magnesium (Mg) -Mirch metal alloy and processing heat treatment - Google Patents

Abstract

The present invention relates to the production of copper (Cu) -zirconium (Zr) -magnesium (Mg) -mixture metal alloys for resistance welding and spot welding of electrical contact materials and steel sheets, The present invention relates to a heat treatment, which comprises copper (Cu) as a main component, 0.25 to 3.00% (weight percentage) of zirconium (Zr), 0.20 to 0.50% (weight percentage) of magnesium Which is a compound of a component capable of forming precipitates such as cerium copper Cu _x Ce, lanthanum copper Cu _x La, niobium copper Cu _x Nd, and praseodymium copper Cu _x Pr during processing heat treatment, The alloy material according to claim 1, wherein mischmetal is added in the range of 0.02% to 0.50% (weight percentage). The alloy material is a processed alloy capable of maintaining hardness and conductivity at HRB 60-90 and IACS 70-95% Processing.

The material thus produced has excellent hardness and conductivity at high temperature and exhibits excellent performance when it is used for resistance welding of electric contacts and steel sheets and electrodes for spot welding.

That is, an ingot after dissolving the above-mentioned copper (Cu) alloy is produced and subjected to forging, rolling and extrusion at a temperature of 800 to 950 占 폚 with a machining ratio of 7S (about 85%) or more capable of removing the casting structure, Is cooled at 800 to 1,050 占 폚 per 1 inch thick for at least 30 minutes and then subjected to solution treatment by quenching by water cooling or oil cooling and subjected to cold working such as rolling, forging, and drawing at a processing ratio of 70% The above materials are held at 350 to 550 ° C for 1 hour or more and then subjected to age hardening heat treatment by water cooling, oil cooling, air cooling, etc., and the materials thus processed are used in this state or parts such as electrodes are produced. The process order of the cold working and the aging hardening heat treatment may be changed according to the target characteristics of the material or the product in the case where the cold working process is omitted.

Description

Copper-Zirconium (Zr) -Magnesium (Mg) -Mirch metal alloy and processing heat treatment

Since this is a trivial issue, I did not include the contents of the text.

Claims (4)

(Zr) in an amount of 0.25 to 3.00% (weight percentage), magnesium (Mg) in an amount of 0.02 to 0.50% (weight percentage), and a ratio of mischmetal of 0.02 to 0.50% Weight percentage), and resistance welding of electrical contact materials and steel plates with copper (Cu) as the remainder, and copper alloy (Cu) alloy for spot welding electrode material. Rolling, extruding, etc. at 800 to 950 占 폚 with a machining ratio of 7S (about 85%) or more capable of removing the casting structure, after the copper alloy of claim 1 has been dissolved, And then subjected to a solution treatment at 800 to 1,050 ° C for 30 minutes or more per one inch of thickness, followed by quenching by water cooling or oil cooling, and then subjected to cold working such as rolling, forging and drawing at a processing ratio of 70% Is maintained at 350 to 550 ° C for at least 1 hour, and subjected to an age hardening heat treatment by water cooling, oil cooling, air cooling, etc., and the finished material is used in this state or a part such as an electrode is manufactured. Rolling, extruding, etc. at 800 to 950 占 폚 with a machining ratio of 7S (about 85%) or more capable of removing the casting structure, after the copper alloy of claim 1 has been dissolved, After maintaining at a temperature of 800 to 1,050 DEG C for 30 minutes or more per 1 inch, quenching by quenching by water cooling or oil cooling is carried out, and the temperature is maintained at 350 to 550 DEG C for 1 hour or more, followed by aging hardening heat treatment And cold working such as rolling, forging and drawing at a room temperature and a processing ratio of 70% or more is performed, and the finished material is used in this state or a part such as an electrode is manufactured. Rolling, extruding, etc. at 800 to 950 占 폚 with a machining ratio of 7S (about 85%) or more capable of removing the casting structure, after the copper alloy of claim 1 has been dissolved, After maintaining at a temperature of 800 to 1,050 DEG C for 30 minutes or more per 1 inch, quenching by quenching by water cooling or oil cooling is carried out, and the temperature is maintained at 350 to 550 DEG C for 1 hour or more, followed by aging hardening heat treatment And the material having undergone the above-described process is used as it is, or a part such as an electrode is produced. ※ Note: It is disclosed by the contents of the first application.