Patent ID: 8728621

Claim:
A hard multilayer film formed body consisting of a multilayer film formed on a surface of a base material, wherein said multilayer film comprises (1) a film, composed mainly of diamond-like carbon, which is formed as a surface layer of said multilayer film, (2) an intermediate layer, composed mainly of a metallic material, which is formed between said surface layer and said base material, and (3) a stress relaxation layer, composed mainly of carbon, which is formed between said intermediate layer and said surface layer; and said stress relaxation layer being a graded layer whose hardness increases continuously or stepwise from a side of said intermediate layer toward a side of said surface layer; and said intermediate layer has either a two-layer structure consisting of a first layer, adjacent to said base material, which is composed mainly of tungsten; and a second layer, adjacent to said first layer at one side thereof and adjacent to said stress relaxation layer at the other side thereof, which is composed mainly of carbon and tungsten or a three-layer structure consisting of a first layer, adjacent to said base material, which is composed mainly of chrome; a second layer, adjacent to said first layer, which is composed mainly of tungsten; and a third layer, adjacent to said second layer at one side thereof and adjacent to said stress relaxation layer at the other side thereof, which is composed mainly of carbon and tungsten, wherein said hard multilayer film formed body is produced by a production method comprising the steps of: forming said intermediate layer on said base material; forming said stress relaxation layer on said intermediate layer; and forming said surface layer on said stress relaxation layer, wherein said surface layer-forming step is a step at which an unbalanced magnetron sputtering method is used to form a film composed mainly of diamond-like carbon by using a graphite target as a carbon supply source, and said stress relaxation layer-forming step is a step at which said, unbalanced magnetron sputtering method is used to form said stress relaxation layer by using said graphite target and continuously or stepwise raising a bias voltage, wherein in said surface-layer forming step, as a carbon supply source, only said graphite target is used, and hydrocarbon gas is not used, wherein in said surface layer-forming step, said film is formed by applying said bias voltage at not less than 250V to said base material.