DE296781C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

White cast bearing metals consist either of tin as the base metal, the alternating one Percentages of antimony and copper have been added, or it is lead as the base metal with the addition of antimony, zinc or copper as hardening metals, which at the same time lower the melting point been. Both pure tin and pure lead have a proportion of their own

ίο high melting point, and on the other hand are they for the demands that a bearing metal is able to withstand must, in and of itself "too soft, i.e. it would be if one were to make bearing shells from pure Wanted to produce tin or pure lead, even with very low specific load particles these metals are torn from the rest of the substance and washed out of the camp with the oil will. Tin or lead can therefore only be used as white cast bearing metals if they have succeeded in doing so Additives to increase their hardness to a sufficient extent, without at the same time an excessively great brittleness of the alloy appears.

As bearing metals for relatively high specific stress are currently only those white metals are used, the base metal of which is tin, because it so far not successful by using the usual alloying methods is to give the lead the hardness and strength that which distinguish tin-white metals.

The difficulty of using lead as the base metal, bearing metals for high quality requirements manufacture, is based primarily on the lack of alloying ability of the lead. With antimony, lead forms a rich series of different alloys, which are well known in practice under the name of hard lead and are used Find. However, these antimony lead alloys are not characterized by 'strength properties excellent, which are compared with those of the tin-white metals could. If lead antimony alloys are added larger percentages of other hardening agents If metals are added, the alloy generally separates.

On the other hand, recent attempts have succeeded in improving the alloying ability of lead in increase significantly by giving it an appropriate level of cadmium gives. For example, pure lead is melted together with around 8 to 10 percent cadmium and then adds about 8 to 10 percent or a little more of molten to this alloy, pure manganese or high percentage ferromanganese while stirring vigorously, see above these metals together form a uniform alloy of all those properties which distinguish the well-known high-quality tin-white metals. It works in general only in the manner described above, in the course of a simple operation, a real absorption of the manganese in bringing about the alloy and it

Claims (1)

It is noteworthy that here, when molten ferromanganese is used occurs, the carbon is not precipitated or only to a small extent, the manganese carbides just like the metallic manganese in the other metals the alloy are dissolved and their influence can only be brought to bear by that the metal alloys obtained have a greater hardness than when carbon-free manganese is used. Patenτ claim: Lead cadmium alloy, characterized by a content of 8 to 10 percent Cadmium and the same amount of manganese or ferromanganese.