DE592461C - Lead alloy - Google Patents

Description

Lead Alloy The invention relates to alloys which essentially are made of lead, and are based on a new or improved lead alloy, dedicated to the production of. Tubes and, more generally, of those made by pressing Objects, sheet metal and the like, and others usually made of lead Objects.

It has been found that small amounts of zinc in lead in percentages of less than o, 80 /, together with antimony or tin or both metals in. quantities, which amount to no more than = .8% per metal, result in an alloy which is far better physical properties than lead alone. owns it, even though it is only roughly as much as this costs. The alloy has a particularly high tensile strength and is significantly harder and more ductile than pure lead.

The alloy according to the invention has such physical and: also chemical properties - that objects are entirely made of this alloy can exist. However, the invention is not limited to this type of use. The alloy can e.g. B .. can also be used to clad cables Manufacture of pipes, sheets and the like - from the new alloy show the finished Objects have a much smoother surface than those made from pure lead Objects that is the case. The surface can be polished to a high gloss and is notably free from pitting and as a result does not corrode easily. The alloy is particularly resistant to corrosion when given a polished surface is provided. This property is particularly promoted by the presence of tin and is particularly important for the production of lead foil for .Flusschlag von Tins for the tar packing, where it is essentially important that the Foils used for these purposes resist the corrosion caused by exposure the sea air in general.

The alloy is more fluid than lead and when molten is therefore particularly suitable for the production of pipes and such objects with the help of certain types of devices operating within a bath of the molten Alloy work. There is also a tendency towards oxidation in the molten state in the alloy, much less than in the lead, and consequently the tubes are and similar articles particularly free from small particles of oxide, which in general to be held responsible for the formation of holes and defects in the pressed objects are.

It also appears when solidifying from the molten state Segregation completely * to be absent.

The physical properties of the alloy can be determined by suitable Improve heat treatment.

A particular advantage is the tubes made from this alloy is that they are easily bent into any shape can be without the Pipes are flattened or other: Suffer deformations. The pipe also has sufficient strength to maintain its shape to preserve without external support - would be required, such as this is usually necessary with pipes made of pure lead. aside from that The high tensile strength allows higher internal pressures to be used than is the case with pipes made of pure lead is the case. The tubes can therefore be designed to be lighter in cross-section become and still set a greater internal as well as external deformation Resistance as lead lines. This in turn allows a considerable Savings in production without in any way affecting the physical, Properties of the pipes are deteriorated.

The difference in tensile strength of the new alloy compared to that of pure lead is very considerable. In tensile tests, a sample made of pure lead showed an approximate yield strength of 1048.5 kg / cm2 and finally tore under a load of 5636 kg / cm2, while a lead alloy according to the invention with 0.14% zinc and 0.5% 0 antimony, among the same. Conditions tested, had a yield strength of approximately 1440.7 kg / CM2 and tore under a load of 8585.1 kg / CM2. The yield strength here is understood as the point where the sample begins to constrict. If the latter alloy is substituted for o; 50 /; Antimony alone adds 0.25% tin and 0.25% antimony, in order in this way to increase the resistance to corrosive attack, - so the yield point remains approximately the same, while breakage occurs at about 7591.9 kg / cm2 , a little earlier than with the alloy without tin.

Where great strength is required; can for example be an alloy with o, 250 /, zinc and 1,5o0 /, antimony are used. Try this alloy under the same conditions gave a yield strength of 1966.1 kg / cm2, and fracture occurred at 12 124 kg / cm2.

Where great strength is required together with corrosion resistance, it is desirable to add a little tin; an alloy suitable for this purpose contains 0.50 / 0 zinc, 10/0 antimony, 0.250 / 0 tin. This alloy has a yield point of 1735 kg / cm2, and break occurs at zoss = 3 kg / cm2.

For purposes where hardness, smooth surface and corrosion resistance are required an alloy with 80% zinc and 0.5% tin is suitable. The yield point under the same conditions = 603.9 kg / cm2, and breakage occurs at 9764.3 kg / cm2 a.

The above particular compositions have been particularly satisfactory Results in the manufacture of pipes. and sheet metal, but the invention should not be limited to these special contents of alloy metals, nor in any particular way of adding the alloy constituents. In general it can be stated that tin has the resistance to atmospheric Increased corrosion; also resistance to attack by acetic acid and sodium chloride, that antimony improves the mechanical properties and reduces the tendency to oxidize and increases the hardness, and that zinc increases the hardness and strength and a smooth Surface.

Lead of a certain origin can already contain some of the alloy metals so that in this case only one supplement is required.

Claims (5)

PATENT APPROVAL i. Lead alloy, characterized by the following Composition: zinc less than 0.8%, tin and / or antimony per metal not more than 1.8 ° / Q, remainder lead. 2. Alloy according to claim x, consisting of o, i to 0.25% / a zinc, 0.5 to 1.50 / Q antimony, remainder lead: 3. Alloy according to claim x, Consists of less than o, 80 /, zinc, 0.50 / Q tin, the remainder lead. 4. Alloy after Claim x, consisting of 0.14 to 0; 50% zinc, 0.25% tin and 0.25% antimony, Remainder lead. 5. Modification of the alloy claimed under 4, according to which the zinc content 0.5%, the antimony content is 1.00 / 0, the tin content is 0.25% and the rest is off Lead is made. -