DE2114730C - Use of an alloy containing palladium for electrical resistances, especially potentiometers - Google Patents

Description

The invention relates to the Venvendu ig a palladium-containing alloy as a material for electrical resistors, especially potentiometers.

The use of an alloy of 1 to 30, in particular 5 to 25 ^c , ö tungsten and / or molybdenum, the remainder palladium, as a material for electrical resistors such as potentiometers is known from German patent specification 929 074.

This material has a high specific resistance in the order of magnitude of 1 Qmm ² / m. Such specific resistances are of particular importance for potentiometer alloys in order to be able to easily divide even large voltages. With regard to mechanical strength, this alloy has not yet been able to satisfy all applications.

The object of the invention is to find a deformable alloy containing palladium and tungsten, the high mechanical demands placed on them when used as a potentiometer material is fair.

This object is achieved according to the invention by the use of an alloy which, apart from negligible impurities, from 30 to 55, especially 40, percent by weight palladium, 35 to 50, especially 40, percent by weight cobalt, and 15 to 40, especially 20, percent by weight tungsten, consists.

Potentiomicr wires according to the invention have high strength properties with a high specific resistance of the order of magnitude of 1 Qmm ^{2 / m.} They are very wear-resistant, i.e. abrasion-resistant. In addition, they are characterized by an extremely low thermal voltage rain copper. Last but not least, their good corrosion resistance should be mentioned. In addition, it should be mentioned as a further advantage that the specific electrical resistance of the potentiometer alloy according to the invention is approximately the same in the recrystallized and in the deformed state. As a result of the latter, the resistance characteristic is not impaired when the potentiometer is wound.

The well-known palladium-tungsten potentiometer alloy with a tungsten content of 20 percent by weight, the remainder being palladium, has a specific electrical resistance at 20 ° C. of 0.89 Ωmm ² / m, after annealing of 1.10 Ωmm ² / m. In contrast, the specific electrical resistance for a potentiometer alloy, which according to the invention consists of 40% palladium, 10% cobalt and 20% tungsten, is 0.87 Ωmm ^{2 at 20 ° C. and 0.89 Ωmm 2 after annealing} / 'm. The thermal voltage of this alloy against copper is about a fourth in the temperature range between 0 and 100 ° C! the value as measured for the well-known potentiometer alloy of 20% tungsten, the remainder being palladium.

The Vickers hardness of the above-mentioned known potentiometer alloy is 390 kp / mm ² in the unannealed state and 200 kp / mm ³ in the annealed state. Hardness values of 540 kp / mm ² in the unannealed state and 290 kp / mm ² in the annealed state were measured for the claimed Pottntiometer alloy. It follows that the hardness of the claimed potentiometer alloy is about 1.5 times that of the known potentiometer alloy. The hardness of the claimed potentiometer alloy can be increased ^{to values of up to 750 kp / mm 2 by quenching and tempering.} The tensile strength of the potentiometer alloy according to the invention is approximately 1.5 to 2 times as great as that of the known potentiometer alloy. The elongation values for the two potentiometer alloys compared with one another are of practically the same size. Since the potentiometer alloy according to the invention can be produced inexpensively compared to the known potentiometer alloy and has a density that is approximately H) ⁰ U lower, it is particularly suitable for use in the large-scale production of potentiometers.

According to a further feature of the invention, the cobalt content in the claimed potentiometer alloy be replaced in whole or in part by nickel. Also for such potentiometer alloys comparably good results were achieved.

The potentiometer alloy can be produced in the usual way by melting and then further processed into potentiometer wires. The specified alloys can be tempered to a high hardness by tempering in the range from 500 to 700 ° C., for example by tempering at 600 ° C. for half an hour. While the initial hardness of the alloys before the tempering is in the range of about 300 to 500 kp / mm ² , after the tempering they reach a hardness of about 650 to 750 kp / mm ² .

Even in the quenched and tempered condition, the stressed alloys can even be made without any significant changes in hardness on a metallic support, e.g. B. solder a copper carrier. This solderability is particular advantageous for potentiometer wires. The potentiometer materials according to the invention have proven particularly useful where they are exposed to high electrical and / or mechanical loads.

Claims (2)

Patent claims: 1. Use an alloy that, apart of negligible impurities, from 30 to 55, in particular 40, percent by weight palladium, 35 to 50, especially 40, percent by weight cobalt, and 15 to 40, especially 20, percent by weight Tungsten exists as a material for electrical resistors, especially potentiometers. 2. Use of an alloy according to claim 1, in which cobalt is wholly or partially is replaced by nickel, for the purpose specified in claim 1.