Wire electrode for the spark-erosive cutting of hard metal

Abstract

A method and a wire electrode for the spark-erosive cutting of hard metal, whereby the wire electrode has a core and at least one outer coat surrounding the core and wearing during cutting. To avoid corrosion, as, for example, pitting, a wire electrode is chosen, the wearing outer coat of which consists of a metal or a metal alloy which is not nobler than the binder contained in the hard metal, and the metal or the metal alloy has an electrode potential which is less than or equal to Φ0=−0.28 V, referred to a standard hydrogen electrode.

Description

FIELD OF THE INVENTION

[0001] The invention relates to a method and a wire electrode for the spark-erosive cutting of hard metal comprising a core and at least one outer coating surrounding the core and wearing during cutting.

BACKGROUND OF THE INVENTION

[0002] The term hard metal identifies a metal ceramics compound, for example a WC/Co-compound, which has as a characteristic a great hardness and a high resistance to wear, in particular at high temperatures. The hard metal consists of carbides, which are held with a binder, for example Co, Ni, in a structure. The binder can be up to 35% by weight The binder is mainly needed in order to bond ceramic components like carbides, and lend to the hard metal the necessary toughness during mechanical loads. The carbides, which give the hard metal its extreme hardness and resistance ability, are ceramics-like materials; they have a high resistance to corrosion, however, are very sensitive to breakage.

[0003] For the manufacture of highly precise tools or matrixes it is necessary to work hard metal blocks by means of common methods, for example by grinding or spark erosion. The spark erosion has thereby lately been more and more successful because of its great precision, its versatility and its high degree for automation, in connection with advantageous production costs.

[0004] However, it is problematic for the spark-erosive cutting of hard metals that among others pitting phenomena occurs on the not eroded surfaces of the hard metal block, This pitting consists of many small holes on or directly below the surface of the hard metal block. This pitting cannot always be recognized with the naked eye, and the surface of the hard metal block can appear on the outside as being completely sound. However, as soon as the questionable area is subjected to stress due to wear, the previously covered-up holes appear. The holes are created by the corrosion of hard metal. This is an electrochemical process which attacks the entire surface of the block dipped into the watery dielectric. The corrosion causes a washing out of the metallic phase of the hard metal, connected with a freeing of the metal contained in the hard metal in the dielectric.

[0005] The electrochemical corrosion of hard metals is expressed in a destruction of the hard metal structure, which destruction starts out from the surface. It is based on a dissolving of the binder contained in the hard metal and, if applicable, further metals, The cause is hereby the presence of a second, nobler metal, the standard electrode potential of which is thus higher than the one of the corroding metal of the hard metal. The electromechanical corrosion takes thereby place on the anode of an electrochemical corrosion cell and occurs in the presence of an electrolyte (dielectricum). These conditions exist during the spark-erosive cutting of hard metal.

SUMMARY OF THE INVENTION

[0006] The basic purpose of the invention is to provide a wire electrode with which the corrosion, in particular of the not eroded surfaces of the hard metal block is prevented.

DETAILED DESCRIPTION

[0007] This purpose is attained according to the invention by selecting a wire electrode for the spark-erosive cutting of hard metals, the wearing outer coat of which consists of a metal or a metal alloy, which is not nobler than the binder contained in the hard metal, and by the metal or the metal alloy having an electrode potential which is less than or equal to Φ0=−0.28 V, referred to a standard hydrogen electrode. Thus indeed small metal particles of the outer coat come loose during the cutting due to wear of the outer coat of the wire electrode and remain in the dielectric. Since these small metal particles, however, are not nobler than the metal contained in the hard metal, the electrochemical corrosion, namely the pitting of the hard metal, can therefore not occur as soon as the small metal particles come into contact with the hard metal block. Consequently also the pitting phenomena in the hard metal block is avoided.

[0008] The hard metal block as a rule contains cobalt. Cobalt is an electrode potential of approximately Φ0=−0.28 V, referred to a standard hydrogen electrode. The metal contained in the wearing outer coat or the metal alloy contained in the wearing outer coat thus have advantageously an electrode potential which is less than or equal to Φ0=−0.28 V, referred to a standard hydrogen electrode. Thus it can be, for example, aluminum, magnesium, zinc or iron.

[0009] The core of the wire electrode according to the invention can consist of a copper alloy or of a copper. An outer coat of steel, which outer coat wears at least partially, is applied to such a core, According to the invention, it is possible to apply a zinc coat onto this steel coat. Such a wire electrode is to be utilized in such a manner that only the outer coats wear, not, however, the core.

Claims

1. A wire electrode for the spark-erosive cutting of hard metal comprising a core and at least one outer coat surrounding the core and wearing during cutting, wherein the wearing outer coat consists of a metal or of a metal alloy which is not nobler than the binder contained in the hard metal, and wherein the metal or the metal alloy has an electrode potential, which is less than or equal to Φ0=−0.28 V, referred to a standard hydrogen electrode.

2. The wire electrode according to claim 1, wherein the core consists of a copper or a copper alloy which is covered with an outer coat of Iron or an iron alloy.

3. The wire electrode according to claim 2, wherein a further outer wearing coat of zinc or zinc alloy is applied to the wire electrode.

4. A method for the spark-erosive cutting of hard metal by means of a wire electrode which has a core and at least one outer coat surrounding the core and wearing during cutting, wherein a wire electrode is chosen, the wearing outer coat of which consists of a metal or a metal alloy which is not nobler than the binder contained in the hard metal, and wherein the metal or the metal alloy has an electrode potential which is less than or equal to Φ0=−0.28 V, referred to a standard hydrogen electrode.