DE661821C - Cadmium alloy, in particular for lining bearings, and methods of manufacturing bearings - Google Patents

Description

Cadmium alloy, particularly for lining bearings, and processes for bearing manufacture The invention is directed to a cadrnium alloy, in particular their use for lining bearings and a method of manufacture of bearings with such a lining. It is the fulfillment the toughest requirements placed on bearings for high-speed machines will.

The bearings for relatively high speeds and loads, For example, the main bearings of internal combustion engines, are generally with a relatively soft alloy, for example white metal or babbitt metal, lined. This alloy consists mainly of tin with small amounts of antimony and copper. When operating the machines at high speeds, high temperatures of the lubricant and the bearing parts arise the white metal-lined bearings easily reach a temperature at which they are so weakened that the lining will be destroyed and sometimes even its melting point is achieved.

The invention has the task of eliminating these difficulties. It is based on known alloys of cadmium with silver and identifies is essentially the fact that an alloy of cadmium with a relatively small amount of silver and preferably with a very small addition of copper and / or nickel is used. This alloy has remarkable properties when used as a bearing lining. The silver content is only at one At about 0.5% and upwards, it is noticeably effective, and the uppermost limit is near 5 0/0; however, it results from a proportion of more than 3.5 % increasing difficulty in maintaining a uniform alloy. At the A silver content of approximately 1.75% to 2.50% has proven to be most satisfactory.

Copper or nickel or both metals can be added as hardening agents, but their amount should be relatively small and not exceed z%, preferably limited to 0.25 to 0.5o%. The bearing alloy in its preferred composition would therefore contain: Silver ............. I, 75% to 2.5o%, Copper or nickel .. o.250 / 0 - 0.5 0 and cadmium, the rest, namely ......... 97.0% -98.0 0/0 An alloy of the composition described melts at about 320 ° C (61o ° F) compared to about 23o ° C (45o ° F) for common white metal. Their hardness is in the range of 38 to 5o Brinell degrees, while white metal is approximately 2r to 3o. The new alloy is therefore very, dense and retains its strength and tightness at temperatures which are far above those at which the ordinary white metal disintegrates or melts under the conditions occurring in the operation of bearings. The new alloy also has excellent sliding properties when it comes into contact with finite steel shafts. Its durability was demonstrated by the fact that: one set of bearings lined with the new alloy could withstand the stress of three successive sets of white metal supports under the same conditions.

However, the application of the new alloy to bearing shells, such as sleeves, bushings, bearings for connecting rods, etc., which are usually made of steel, involves a certain difficulty with regard to the adhesion of the alloy to the backing member. The invention creates an extremely strong adhesion and actually a complete union between the lining alloy and the backing made of steel or iron by the process: First of all, to coat the backing with an alloy serving as a binding layer, the effect of which is roughly equivalent to the tin-plating customary in white metal bearings. The binding alloy used for this purpose consists of cadmium with an addition of zinc or antimony. Is antimony used; so the content is about 7 ° / o or -% / a. Zinc is used in amounts of 5 % to 20%, the preferred amount being between 10% and 15%. Small amounts of other metals, such as nickel, can be added to the binder alloy. An alloy of 3% to 10% zinc; i % to 2 % nickel, the remainder cadmium gives satisfactory values.

The amount of binder metal, for example zinc, that is added to the cadmium to provide the coating alloy, depends somewhat on the amount of this metal that is permissible for the actual bearing surface, since the constituents of the binder diffuse through the bearing alloy when the bearing alloy is used is poured onto the binding surface. It has been found, for example, that the bearing metal is best satisfied when the amount of zinc in its surface is not more than about 0.25 %. So although zinc or antimony is required to adhere or fuse with the surface of the backing, which may consist of bronze or a ferrous metal, for example, and although that metal serves to prevent the cadmium part from oxidizing, its amount should be in 'remain restricted in the manner indicated.

A method for manufacturing a bearing body according to the invention The following is first of all the base body or the backing made of solid metal; such as bronze, brass, steel or steel rides a coating of brass, bronze or Copper in the usual way to remove rust, grease, etc. to remove, cleaned and on top with a flux customary for metal coatings, for example with zinc chloride and hydrochloric acid. The coating or binding alloy is then applied. This can be done in such a way that the base body is in a molten bath of the Binding alloy is immersed, the temperature of which is approximately 34o ° to 370 ° C (65o ° to 700 ° F). An immersion of about 30 seconds becomes common sufficient to produce the coating and approximately the temperature of the base body to bring to that of the bath. Then the bearing metal is poured onto the base body, while it is still hot, the poured alloy having a temperature of approximately 37o ° to 400 ° C (700 ° to 750 ° F). After cooling down, the storage area becomes machined to the desired dimensions. The eventual thickness of the bearing liner does not need to be greater than o, 25tnrn (o; oi "), if it is for example are connecting rods for internal combustion engines for motor vehicles.

The connection between the bearing alloy and the backing is so strong, and the bearing alloy itself is so dense that one lined with it Steel shell can be bent back into a flat plate without affecting the alloy Cracks or the connection breaks. These properties, in conjunction with the relatively high melting points of the binding alloy and the bearing alloy, make it possible that the bearings, for example sleeves or bushings, in the way be manufactured; that you first produce a blank in the form of a plate, then brings the material into the desired shape. Preferably to this one Purpose the bearing metal is poured into bar form and cold rolled, taking if necessary It is annealed in between until the fabric is reduced to the desired thickness is. Cold rolling the metal mainly improves its physical properties in terms of its tightness and tensile strength. The thin plate is on one Plate of the backing material, for example a steel plate, with the binding alloy hung up in between. This creates a temporary connection with the base plate instead, whereupon the bond under pressure and at a temperature of about 29o ° C (550 ° F) is performed. The plate assembled in this way may then Cut into blanks of the appropriate size and in the usual way in the shape of Bearing shells are brought.

The drawing illustrates a bearing according to the invention. The basic body or the backing 5 consists, for example, of steel: the intermediate layer or binding layer is indicated with 6, which, however, in the finished object as a result of diffusion substantially disappears into the backing metal and the bearing alloy. The tie layer consists of the cadmium-zinc alloy. The actual bearing metal is with 7 and consists of the cadmium-silver bearing alloy. These terms however, they are only intended to provide a general illustration of the invention. The warehouse itself, of course, may have any suitable shape such as the one at hand Purpose.

The invention was applied in its application to the manufacture of bearings explained. It is understood, however, that they are also used for general purposes because of their different, characteristics is applicable. So the invention is not intended to be applied be limited for stock. Rather, it is for related purposes and also for general purposes Cases applicable.

Claims (5)

PAT.GNTANSPRÜci3I :: i. Cadmium alloy characterized by the following Composition: 0.5 to 5%, preferably 1.7 to 2.5% silver, 0.25 to i % Nickel and / or copper, the remainder cadmium. 2. Use of the alloy according to claim i as a material for bearings. 3. Use of an alloy of 0.5 to 5% silver, Remainder cadmium, for the purpose stated in claim 2. q .. Use of alloys the composition specified in claims i and 3 as the material for the lining of bearings, which consist of a soft tread and a hard support shell, e.g. B. made of steel. 5. A method of manufacturing a bearing as claimed in claim 4 mentioned type, characterized in that the tread or lining in shape the silver-containing cadmium alloy by means of an alloy serving as a binding layer from 5 to 20%, preferably 10 to 15% zinc or 7 to 8% antimony, the remainder cadmium, is applied to the support shell.