DE741507C - Magnesium alloy - Google Patents

Description

Magnesium Alloy The present invention aims to provide a magnesium alloy, which is a major disadvantage of the previously known magnesium alloys, namely their low strength, overcomes without .in terms of corrosion resistance to be affected.

The previously known magnesium alloys have acceptable corrosion resistance have strengths that are not significantly above 3o'kg /: mrn2. Will this If alloys are tempered by thermal treatment, this is a disadvantage. the corrosion resistance, which drops sharply as a result of the measures mentioned. These hardened and tempered alloys then not only show a very small surface area; corrosion resistance, but they also prove to be of little use because they are very sensitive to tension and are particularly subject to intercrystalline corrosion. It is so far not been possible, high-strength magnesium alloys with useful corrosion resistance to manufacture. It is known to use magnesium alloys to increase corrosion resistance Add manganese; However, this addition has the consequence that the mechanical properties, especially the toughness to deteriorate sharply. In addition, a high voltage sensitivity is achieved and low resistance to inter-crystal line corrosion due to the addition of manganese not prevented.

Through extensive investigations of the magnesium alloys with the Alloy constituents aluminmin, bismuth and cadmium were surprisingly found Found alloys whose strength properties are those of the previously known Magnpsi # alloys far outperform without it. to lose corrosion resistance.

These alloys contain according to the invention in addition to magnesium r 1 to 5% aluminum, up to 1 I 5% bismuth and r to 1 5% cadmium, but the sum of the three additional components not less than 60; ö may not be over 230jo. For example, an alloy with the composition: 20; o aluminum, 40, o bismuth, 4% cadmium, the remainder magnesium has a strength of 441, #, - / m- 'l at 5% elongation; an alloy with 20 ° aluminum, 8% bismuth, 8% cadmium, the remainder magnesium has a strength of 46 kg / mm ° at 30; `o elongation. A magnesium alloy with 50,000 aluminum, 20,000 bismuth and 20,000 cadmium shows 41 kg / mm ° strength at 50 ° elongation; with a composition of 50; `o aluminum, 80, o bismuth, 60; o cadmium, remainder magnesium, one finds a strength of 45 kg / mm ° at 40`o elongation. If one chooses a content of 80.0 aluminum, 1010 bismuth, 1010 cadmium, the remainder being magnesium, the result is a strength of 401 g / mm- at 60 ° elongation. A magnesium alloy with 80% aluminum, 40% bismuth and 40: ö cadmium has a strength of 451.00 / mm2 at 4% elongation, one with ii% aluminum, 20% bismuth and 30% cadmium 47 kg / mm strength at 3% elongation.

Further research has shown that the bismuth is partly through Lead or tin or can be replaced by lead and tin. If you use about one of the above alloys, e.g. B. with the composition: 50 yo Aluminum, 80'o bismite, 60'o cadmium, the remainder magnesium, the content of 80'o j @ 7ismut can be partially replaced, optionally with lead, tin or lead and tin, so that the above, nth alloy with 50, ö aluminum, 60; ö cadmium in addition to 30'0 bismuth, in addition 5% lead or 50, 'o tin or 201'ö lead and 3% tin or 4% lead and z% tin etc., the remainder contains magnesium. The strength and corrosion properties are only changed insignificantly.

Claims (2)

PATENT CLAIMS: i. Magnesium alloy, characterized by a Content from i to i 50; ö aluminum, i to i 5% bismuth and i to 150`o cadmium, where the sum of the three additional metals is 6 to 230 "'o, the remainder being magnesium. 2. Magnesium alloy according to claim i, characterized in that the bismuth is partially replaced by lead or tin or lead and tin. To distinguish the subject of the application from the state of the art, the following publications were considered in the granting procedure: American patent specification No. 2 oi 1 613, 1 998 168 to 1 998 171, 2 0 26 589 to 2o26592, 2 045 236 to 2045247, 1 558 o66, 2 0 29 728.