DE551368C - Bronze alloy - Google Patents

Description

Bronze alloy The invention relates to a bronze alloy with the usual copper content of about 79 to 87% and aims to have a corrosion and to create acid-resistant bronze, which in addition to corrosion resistance at the same time also high resistance to mechanical stress with sufficient Has elasticity and ease of processing.

It has been found through experiments that these properties of one Bronze met -, which according to the invention contain nickel and chromium from altogether 13 to 21 4; p owns. Copper alloys containing nickel and chromium are already known per se. However, these alloys do not have that in bronze> usual copper content of about 7 9 to 87 OJo, but a lower copper content, these alloys are still characterized by ease of machining and elasticity the end.

According to the invention, bronzes with have proven to be most suitable proved to have a nickel content of 7 to 12% and a chromium content of 6 to 9%, so that essentially these two metals together with the rest, besides the copper make up the remaining percentage of the alloy. However, this does not conclude from the fact that a few percent of other metals usually used in bronze alloys, such as tin, zinc or lead, are present. For the greatly increased corrosion resistance but the bronze is the content of nickel and chromium provided according to the invention decisive. The following compositions are examples of such novel ones Bronze alloys, which only consist of copper, nickel and chromium: Example r 8o 0, 'o copper, t 2 0i0 nickel, 80,' o chromium. Example e 82070 copper. 9% nickel, 9% chromium. Example 3 87% copper; 0, 'o nickel, 6% chromium. Such alloys show an unprecedented degree of resistance to bronzes Acids and bases and also have both high mechanical strength Stresses as well as sufficient elasticity and easy machinability. To increase the acid resistance of the new bronze alloys even further, these in addition to nickel and chromium a small amount of aluminum, for example 0.5 to 1.5%, can be added. In the examples given, e.g. B. the first Alloy 0.50; 'o aluminum, the second 1.2% aluminum and the third 45% aluminum be added.

The new bronze alloys are expediently manufactured in the way that from nickel, chromium and optionally aluminum with the addition of about 2% Bora or boric anhydride first prepares a molten alloy and this about 7 9 to 87 0; o copper can be added. Under constant The alloy is then stirred until it is thin, about 0.5% phosphorus copper added for deoxidation, skimmed well and poured as quickly as possible.

If the preparation takes place in a graphite crucible, then in particular In the presence of aluminum, boric anhydride instead of borax is expedient as a flux used because then part of the boric anhydride is reduced to metallic boron and passes into the alloy, which makes it crystallize receives particularly favorable properties.

Claims (1)

PATRi7TANSPRUCI3: Bronze alloys with a copper content of 79 to 87%, characterized by a combined nickel and chromium content of 13 to 21%, the nickel content being 7 to 12% and the chromium content 6 to 9%.