DE590038C - High-tin bearing metals - Google Patents

Description

High tin bearing metals High tin bearing metals with tin content from about 70 to 90% have been known for a long time, in particular the standardized Tin-white metals referenced. As experience has shown, these alloys are can also cope with high loads in heavily loaded bearings. However, they are Sliding properties of these known alloys, especially when they are heavily used and high-speed machines, often insufficient, so that the bearings from these Tin-white metals are easily prone to excessive heating, reducing the mechanical Strength values of the material are significantly reduced. The present invention largely eliminates this drawback by providing the sliding property the well-known tin-white metals significantly improved, thereby the inclination of the bearings for warming up very considerably and in this way the reduction of the mechanical properties of the bearing caused by warming up, eliminated. This improvement is due in large part to the introduction of nickel achieved in high tin content white metals.

It has been shown, however, that the addition of nickel alone does not sufficient to achieve a thoroughgoing improvement in tin-white metals, since due to the nickel, however, only a noticeable increase in lubricity a mechanical strengthening of the material is achieved to a lesser extent because by increasing the melting point when adding nickel from casting technology For reasons, certain nickel contents may not be exceeded appropriately. Around to bring about a significant mechanical strengthening of the material, the simultaneous addition of cadmium was found to be necessary. The by addition Alloys improved by nickel and cadmium are characterized by an increase both the strength values and the sliding properties, whereby as a special The toughness of these alloys is remarkable, which makes them special makes it suitable for heavily loaded bearings with intermittent loads.

The composition of these alloys fluctuates between the limits: 7o to yo% o tin, 5 to 2o oJo antimony, 0.5 to ro ° /. Copper, 0.5 to 50 (o nickel and 0.2 to 5 % cadmium, whereby the copper can also be omitted entirely.

If a particularly high hardness of the alloys is required in special cases, this can easily be achieved by adding arsenic in amounts of 0.2 to a 1 / o.

It should also be mentioned that part of the copper, which is in high tin content, is expedient Bearing metals are always present, can be replaced by phosphorus copper, whereby a deoxidation of the melt and further improvement of the material achieved will.

A complete or partial replacement of the Nickel evidenced by cobalt, with a remarkable refinement of the crystal grain is observed, in particular with regard to the further Increasing the plastic properties of the material (toughness) has a beneficial effect. .

It has also been shown that the addition. other refractory metals, such as. B. manganese, tungsten, chromium, in amounts of about 0.3 to 3 0/0 individually or in groups has a beneficial effect on the mechanical strength and chemical resistance of these alloys. The following alloys may be mentioned as examples: i. 8o, o 01o Sn, -i2.0 0/0 Sb, 4.5% Cu, i, ° ° / o PCu` (with io lro P), i, ol /, Ni, 1.0% Cd, 0 , 5% As. -.-2. 83.0% Sn, 8, o ° / o Sb, 2.5 , ° / o Ni, 2.5 ° / o Cu, 0.5 ° / o P (: u (with i ° 01o P), 3 , 0% Cd, 0.5 0/0 As. 3. 77.0 0% Sn, 15.0% Sb, 1.5% Ni, 3.0% Cu, -1.0 0/0 P Cu (with io l! ° P_), o, 5 ° / a Mn, 2, o 0/0 Cd.

Claims (5)

PATENT CLAIMS: i. High tin bearing white metals, consisting of 70 to 90% tin in addition to 5 to 20% antimony with or without a copper content of 0.5 to 10 0/0, characterized in that these alloys to increase the lubricity and improvement of the mechanical strength values or nickel in amounts of 0.5 up to 5 0/0 and cadmium in amounts of o, - to 5 0/0. 2. Alloy according to claim i, characterized in that to refine the structure nickel in whole or in part is replaced by cobalt. 3. Alloy according to claim i and 2, characterized in that that they still use arsenic in amounts of 0.2 to 2 0/0, especially for further hardening contains. 4 .. Alloy according to claim i to 3, characterized in that it is in particular to increase the chemical resistance of refractory components such as z. B. manganese, tungsten, chromium, in amounts of 0.3 to 3 0/0 individually or in groups contains. 5. Alloy according to claim i to .4, characterized in that in copper-containing Alloys to improve the casting properties are part of the copper is replaced by phosphor copper.