DE817816C - alloy - Google Patents

Description

Alloy The invention relates to alloys, in particular Precious metal alloys.

The alloys of the present invention are of the same color and appearance of platinum and are very resistant to corrosion and oxidation. You also have great hardness and tensile strength with high ductility.

From the American patent specification 2189571 alloys are with 20 to 60% platinum, up to 40% palladium, up to 50% silver and up to 25% gold are known. Such alloys are resistant to corrosion and oxidation and have high tensile strength and hardness and have sufficient ductility so that their mechanical processing in suitable fittings does not cause any difficulties. In continuation of these investigations about duaternary alloys of the platinum-palladium-silver-gold system has been used looking for alloys that have great 'tensile strength and hardness with great ductility connect, found that one outside of that in the American patent disclosed content limits surprisingly good alloys obtained if you consider the silver content reduced to below to% and the proportion of the other three components accordingly changes.

The following table shows some of the mechanical properties of the new alloys. It can be seen that the alloys according to the invention differ from the alloys known from the American patent mainly in their low silver content. The new alloys also differ in their properties from the known alloys insofar as the tensile strength is significantly greater without the elongation; which is a measure of ductility, would be reduced accordingly. On the contrary, there is a tendency toward an increase in both ductility and tensile strength. An alloy of 6o% platinum, 200/0 palladium, 10% gold and 10% silver, which is the lower limit of the known alloys with regard to its silver content, has a tensile strength of only 98 kg / mm2 and a proportionality limit of 87 kg / mm2. at an elongation of 12%. On the other hand, the new alloys also differ from the ternary alloys platinum-palladium-gold, ie from silver-free alloys, in that they have considerably greater tensile strength. So has z. B. an alloy of 50/0 platinum, 30% palladium and 20% gold has a tensile strength of only 82 kg / mm 'and a proportionality limit of 56 kg / mm2 at an elongation of 13%.

The alloys according to the invention contain 20 to 40% palladium, io to 30% gold and i% and more, but below io% silver, the remainder 40 to 60% platinum. The io "/ o limit of the silver content which the invention differs from the known Separates alloys, is in connection with a higher minimum content of platinum, Palladium and gold are crucial for the large increase in tensile strength with high or even higher ductility. Even the alloys with less than i% silver does not seem to have the characteristics of the present invention quaternary alloys, but on the contrary the general properties of the to have corresponding ternary alloys. From the table there is a pronounced one Maximum for the second alloy containing 4% silver recognizable by the tensile strength both with increasing and decreasing silver content sinks. If a triangle is formed, the tip of which is occupied by the alloy with 4% silver, so the preferred area on one thigh descent would be up to 20/0 silver down and on the other leg to a maximum of 9%. the Alloy with 8% silver on one leg would be an alloy with 2.75% Silver match on the other. The minimum content of platinum + gold should be such alloys of the narrower range about 60% and the minimum content of platinum + Palladium be about 61%.

The alloys according to the invention have a high melting point. For example, the alloys listed in the table all have one Melting point of over 150 ° C. The hardness of the new alloys is also greater than that of other quaternary alloys. The same goes for persistence against corrosion and oxidation. * The alloys are resistant to acids such as hydrochloric acid, Nitric acid, sulfuric acid, etc., perfectly stable. As a result of her extraordinary With a high softening point, they retain their hardness even at high temperatures.

The alloys are useful for many purposes, especially manufacturing of dental equipment that is exposed to corrosive or similar influences are, like bits, orthodontic wires, brackets, etc. They are the same can be used for jewelry work and similar purposes.

Claims (6)

PATENT CLAIMS: i. Alloy, characterized in that it consists of 20 to 40% palladium, 10 to 30% gold, 2 to 9% silver, the remainder 40 to 60% platinum. 2. Alloy according to claim i, characterized in that the total content on platinum + gold at least about 6o / o and on platinum + palladium at least about 6%. 3. Alloy according to claim i, characterized by a silver content of about 4%. q. Alloy according to claim 3, characterized in that it is approximately Contains 50% platinum, 26% palladium, 20% gold and approximately 4% silver. 5. Alloy after Claim i, characterized in that it consists of 22 to 28% palladium, about 20% gold, 2.75 to 8% silver, the remainder about 50% platinum. 6. Use the alloy after Claims i to 5 for the production of dental equipment.