DE832067C - Silver alloy that can be refined by precipitation hardening - Google Patents

Description

Silver alloy heat treatable by precipitation hardening is the subject of Invention is an alloy which can be hardened and tempered by precipitation hardening and which is the main component Contains silver and a method for its compensation.

As the precipitation hardening effecting metal additives of quenched and tempered arene Silver alloys are known alongside aluminum and manganese or magnesium. These known silver alloys have, inter alia. the disadvantage that they look bad let pour because they absorb gases due to their aluminum or magnesium content and so give rise to the formation of bubbles and form undesirable oxide skins.

This disadvantage is eliminated by the invention.

The new silver alloy is free from the additives mentioned. she In addition to silver as the main component, it primarily contains copper and also a or several metals that form metallic compounds with copper and with silver Form mixed crystals. Such metals, which are added to copper in addition to copper, are cadmium and tin and, for certain purposes, small amounts of zinc and indium. So effected z. B. an addition of indium in high-silver alloys increases the spring force, whereby such alloys are particularly suitable for the production of tie pins and clips etc. are suitable. The content of metal additives must be divided so that intermetallic Connections arise.

The new alloys contain silver within the limits of 75 to 97.5%.

The following compositions are cited as examples: i. go% A9, 50% Cu, 2% Cd, 2% In, i% Zn; z. 83.5% Ag, 8% Cu, 3.50% Cd, 3.5% Sn, 1.5% Zn; 3. 97.5% Ag, i% Cu, i% Cd, 0.5% In. It is also mentioned that the addition of In in each case is below 4% of the total alloy.

From the above examples it can be seen that besides silver as the main and, copper as a necessary addition, an extensive selection among the Metals cadmium, tin, zinc and indium as additives can be taken to a high-silver, heat-treatable alloy. Generally will the remainder outside of the silver content consists of about half of copper, while the other half relies on additions of one or more of the metals Cadmium, tin, zinc and indium distributed.

These alloys are made without any addition of aluminum, or manganese Magnesium can be remunerated. In terms of the remuneration, the procedure according to the invention is that one the alloy of the; The solution annealing temperature is quenched to the tempering temperature. The quenching from the solution annealing temperature occurs within the approximate Temperature limits from 7oo to 4oo ° C. The starting temperature of the tempering process, from which the quenching takes place is in any case below the temperature of 78o ° C, but must be above 55o ° C. After quenching, the tempering process takes place slowly, e.g. B. in a pull-through furnace, preferably under protective gas. The tempering temperature lies in a temperature range between 400 and 25o ° C. '' It still needs to be emphasized that the new alloys are easily solderable. As the soldering temperatures are below 25o ° C during soft soldering, the spring force of such alloys suffers produced work pieces not by the plumbing.

Claims (7)

i. Heat-treatable silver alloy, characterized in that besides silver as the main component within the limits 75 to 97 5% and copper as a necessary addition indium below 4% alone or two or more of the metal parts cadmium, tin, zinc and indium, the latter below 4%, contains. 2. Silver alloy according to claim i, characterized in that that they except for silver as the main component in the limits 75 to 97 50/0 about half of the remainder outside the silver component consists of copper, while the other half is indium under 4% alone or two or more of the It contains all cadmium, tin, zinc and / or indium, the latter less than 4%. 3. Silver alloy according to claim i and 2, characterized by the following composition: 90% silver, 5% copper, 2% cadmium, 2010 indium and 1% zinc. 4. Silver alloy according to #, iisprucli i to 3, characterized in that they consist of 83.5% silver, 8% copper, Consists of 3.5% cadmium, 3.5% tin and 1.5% zinc. 5. Silver alloy according to claim i to 3, characterized in that they consist of 97.5% silver, i% copper, i% cadmium and 0.5% indium. 6. Process for tempering the silver alloys according to claims i to 5, characterized in that the alloys of the solution temperature quenched to tempering temperature. 7. The method according to claim 6, characterized in that the quenching takes place in the approximate temperature limits of 700 to 400 ° C and is then slowly cooled for the tempering process in the bright annealing continuous furnace under protective gas.