DE508154C - Copper alloys with higher lead contents for bearing shells and packings - Google Patents

Description

Copper alloys with higher lead contents for bearing shells and packings It is known that a lead content in copper bearing metals with a bronze base (gunmetal) can bring about excellent sliding properties, especially with low tin contents. However, this addition of lead is limited to low percentage concentrations due to its peculiarity of forming a miscibility gap with the copper, and thus, at higher contents, is irregularly distributed in the finished alloy as a result of segregation in the form of nests. This segregation of the lead in copper bearing metals with a bronze base (copper with up to iot), 'o tin) can be prevented, as has become known from the relevant literature, by adding a small amount of nickel. It is also known to improve the miscibility of lead in bronzes by adding phosphorus. Finally, according to patent f20 068 and additional patent, a23 292 , 2.5 to 5 "/" nickel in bronze with 2 to 10 °! "Tin up to 25" j "lead is kept in suspension and the castability of these alloys is improved by phosphorus .

Detailed tests have now shown that the miscibility gap is lead-copper It is more advantageously bridged by the interaction of the elements nickel-f-cobalt -E- Ar be -! - Phosphorus, whereby strength values are achieved which are approximately equal percentage concentrations of the main components copper, tin and lead are superior to the known alloys.

By binding the cobalt in the copper as a solid solution, join Presence of nickel on valuable solidifications of the material. An 'arsenic addition In addition to helping to bridge the miscibility gap, copper-lead has one effect Increase in hardness and the important 2 o! O limit with a decrease in compressibility with the same specific impact strength as with the known alloys. Simultaneously This makes the new alloys more fluid and machinable improved.

Phosphorus deoxidizes the new alloys in a known way, carries, As is known, to bridge the miscibility gap Kul7-fer-lead and increases as Alloy constituent strengthens by forming an intermetallic compound of the alloys. The phosphorus can partially be replaced by the manganese. Further it has been found that the concentrations of nickel and cobalt are advantageous on the one hand and arsenic and phosphorus, on the other hand, are taken approximately equally.

An alloy according to the invention with tin, 1.5 "/" nickel, 1.5 "/" cobalt, 0.5 "; o arsenic, 0.50 /" phosphorus, 20 "/" lead, remainder copper has the following properties : Hardness (5oo / io) = 8ökgiqWrn, 'compressive strength (62 ° / o) = 1 8 07 4g / sqcm and compressibility = 28 0 o.

Contrary to the usual introductory form, when the alloys are manufactured of phosphorus than phosphorus copper or phosphorus tin is the same more economically the same Alloyed with the arsenic as prepressed phosphorus-arsenic bodies in the base. In order to all desired chemical and intermetallic reactions are carried out in one Operations initiated, while both the previous procedure with the im Commercially available expensive master alloys of phosphorus and arsenic at least two operations are required.

Claims (3)

PATENT CLAIMS: i. Metal alloys for bearing shells and packings, consisting of copper as the base metal, a higher content of lead (10 to 30 ° 4), a tin content (2 to 7 ° / o) as well as nickel content (i to 3 ° / o) and phosphorus content of up to i ° / 0, characterized in that the alloys contain arsenic as a further component in amounts of up to 1 % and part of the nickel is replaced by cobalt, the arsenic and phosphorus content together should not exceed 2%. 2. Alloys according to claim i, characterized in that both the components Arsenic and phosphorus as well as nickel and cobalt are present in equal concentrations are. 3. Alloys according to claim i and 2, characterized in that phosphorus is partially replaced by manganese. d .. Process for making the alloys according to claims i to 3, characterized in that phosphorus and arsenic are pressed Phosphorus arsenic bodies are introduced into the melt shortly before casting.