DE301380C - - Google Patents

Description

GERMAN EMPIRE

ISSUED ON APRIL 9, 192!

REICH PATENT OFFICE

PATENT LETTERING

Vr 301380 - ■ CLASS 40 b GROUP

Lead alloy. Patented in the German Empire on January 19, 1917.

The present invention relates to an alloy with lead as the base metal, which suitable for all purposes where there is a need for hardness, toughness, low frictional resistance, Air resistance and easy meltability are important, for example for manufacturing of bearings as a replacement for white metal and bearing bronze, for the production of bullets, for accumulator plates, for

ίο letter metal, for soldering purposes, for lead cable sheaths The invention consists in that the lead does not exceed one ι ο percent Content of barium is added. An improvement in the properties of such lead

»5 barium alloys in terms of meltability, castability, toughness and others Properties are achieved by adding one or more of these alloys of other light metals, such as calcium,

ao strontium, sodium, adds, with the total content metals alien to lead should also not exceed 10 percent.

The addition of these light metals to soft lead or hard lead, which by adding

»5 other metals, e.g. B. antimony and tin is, is known per se. The present invention is hard lead, whose hardness arises from the addition of barium, whereby the barium becomes a larger or smaller part with "simultaneous change in other properties the alloy can be replaced by the light metals mentioned.

Such lead-barium alloys, both with and without. Addition of other light metals, are, for example, harder than alloys with the same content of calcium. You have the calcium alloys over the Another advantage is that they do not segregate, are more air-resistant and tougher than these.

Examples:

1. There were, for example, alloys with 2.3 percent barium, with 0.8 percent Barium, made with 1.7 percent barium, and alloys with 0.75 percent barium + 0.1 percent calcium, with 1.05 percent barium + 1.66 percent calcium. All these Alloys had the character of hard lead and were completely air-resistant.

2. An alloy with 6 percent barium resulted in rods 2 mm in diameter shed and stayed in the air for months without showing signs of decay. An alloy with 8 percent barium showed similar properties and proved itself in the Comparison more air-resistant than an alloy with 3 percent calcium.

3. An alloy with 2.05 percent barium, 0.8 percent calcium and 0.25 percent Sodium was examined for strength and hardness and gave the following counts: 820 kg / sq cm yield point, 2270 kg / sq cm breaking load and 28 kg Brinell hardness. Simultaneously A normal white metal (with 70 percent tin) was tested and it was found that this white metal has the same yield strength, but 400 kg lower Had breaking load.

The alloys according to the present invention are therefore eminently suitable as Substitute for white metal for the production of

(3rd edition, issued on May 9th iffir.)

To store. Also with regard to the other properties required for bearing metals. ten (easy pourability, thin liquid, low melting point, low tendency for segregation, low expansion coefficient, air resistance and the like) the alloys according to the present invention meet all the requirements to be met by bearing metals. It is recommended for the purposes of using the alloys according to the present invention as a bearing metal and for similar purposes the total addition of barium and other ingredients to keep below S percent.

The alloys have similar properties to the lead-barium alloys of lead with strontium. The hardness of the lead-strontium alloys is somewhat lower like that of the lead-barium alloys, each

ao bigger than the lead-calcium alloys. Of course, you can also use additives corresponding to the strontium alloys of other light metals up to a total content of 10 percent.

By prisoners known per se at Hartblei Other additives, such as the heavy metals and magnesium, individually or in groups, can cause further changes of the alloys of the present invention in terms of their various properties.

Claims (3)

Patent Claims: 1. Lead alloy, which consists of soft lead and a 10 percent not exceeding The addition of barium (or strontium) is made. 2. Lead alloy according to claim I, characterized by an additive to other hard lead known content of calcium or strontium (barium) or sodium, or of two or three these metals together, with the total content of barium (strontium) and these other metals being 10 percent should exceed. · "'. 3. The application of the alloy according to claim 1 to 2 as a bearing metal.