Abstract: Provided is a surface-treated copper foil in which in order to avoid failures of electronic parts by corrosion, a high bond strength between an electrolytic copper foil and a resin base material can be maintained even when the surface-treated copper foil is exposed to corrosive gases and microparticles, and a method for manufacturing the same. The surface-treated copper foil of the present invention comprises an electrolytic copper foil, a roughened layer covering at least one surface side of the electrolytic copper foil, and a rust preventive layer further covering the roughened layer, wherein the rust preventive layer is at least one surface of the surface-treated copper foil; the rust preventive layer comprises at least a nickel layer; and the thickness of the nickel layer is 0.8 to 4.4 g/m2 in terms of mass per unit area of nickel; and the noncontact roughness Spd of the rust preventive layer is 1.4 to 2.6 peaks/?m2 and the surface roughness RzJIS of the rust preventive layer is 1.0 to 2.5 ?m.

Abstract: A composite copper foil having three layers of a supporting metal layer, an exfoliating layer and a thin copper layer, wherein one surface of the exfoliating layer comprises, as a main component, an alloy of tungsten or an alloy of molybdenum and the other surface thereof comprises, as a main component, a metal oxide containing tungsten or a metal oxide containing molybdenum. The composite copper foil is free from undesired swelling, separation or falling of the supporting metal layer during heating and working at a high temperature, and the supporting metal layer can be exfoliated from the thin copper layer with case, after the heating and the working.

Abstract: An electrolytic copper foil is electrodeposited onto the cathodic drum surface of a rotating cathode drum by feeding an electrolytic solution between the cathode drum and an anode facing each other and applying direct current between them, while the initial formation of the crystal nuclei of the electrolytic copper foil is performed by providing an auxiliary anode, an electrolytic solution receiver and a flashboard above the anode and applying an electric current between the cathode drum and the auxiliary anode and feeding an electrolytic solution separately onto the cathodic drum surface from an electrolytic solution feeder placed near the auxiliary anode and discharging it through the gap between the cathodic drum surface and the edge of the electrolytic solution receiver, keeping an electrolytic solution holdup between the cathodic drum surface and the auxiliary anode by the electrolytic solution receiver and the flashboard.

Abstract: A method of producing a roughening-treated copper foil, comprising (A) a copper foil, (B) a composite metal layer, which is formed on a bonding surface of the copper foil and comprises (I) copper, (II) at least one metal selected from the group consisting of tungsten and molybdenum and (III) at least one metal selected from the group consisting of nickel, cobalt, iron and zinc, and (C) a roughened layer comprising copper, which is formed on the composite metal layer.

Abstract: A copper foil for fine wiring is produced by forming on a bonding surface of a copper foil a composite metal layer comprising (I) copper, (II) at least one of tungsten and molybdenum and (III) at least one of nickel, cobalt, iron and zinc by carrying out electrolysis in a plating bath (A) containing ions of these metals and chloronium ions, and then forming a roughened layer comprising copper on the composite metal layer by carrying out electrolysis in a plating bath (B) containing copper ions at a current density not lower than a limiting current density of the plating bath to form a dendritic copper electrodeposition layer and then carrying out subsequent electrolysis at a current density lower than the limiting current density of plating bath to form nodular copper.

Abstract: A copper foil for a TAB tape carrier, comprising (a) a copper foil having a shiny surface and a mat surface; and (b) an alloy layer comprising nickel, cobalt and molybdenum, which is formed at least on the shiny surface; a TAB carrier tape, comprising a flexible insulating film and the copper foil for a TAB tape carrier applied onto the flexible insulating film with a surface on the side of the mat surface facing the flexible insulating film; and a TAB tape carrier, which is produced from the TAB carrier tape by etching the copper foil for a TAB tape carrier to form a copper lead pattern.

Abstract: A lead frame material, which can be provided with an etching stop layer without requiring a troublesome process such as vapor deposition and has an excellent heat-resistance, is obtained by forming a nickel-phosphorus alloy layer (B) of 1.6 to 10 .mu.m thickness containing 0.3 to 1.0 wt % of phosphorus on a copper or copper alloy layer (A) of 35 to 300 .mu.m thickness, and forming an optional copper layer (C) of 0.2 to 30 .mu.m thickness on the nickel-phosphorus alloy layer (B).

Abstract: A copper foil for a printed wiring board which has a carbon-containing copper-zinc coating comprising 40 to 90 atomic % of copper, 5 to 50 atomic % of zinc and 0.1 to 20 atomic % of carbon is produced by dipping a copper foil in a non-cyanide copper-zinc electroplating bath containing a copper salt, a zinc salt, a hydroxycarboxylic acid or a salt thereof, an aliphatic dicarboxylic acid or a salt thereof and a thiocyanic acid or a salt thereof, and carrying out electrolysis in the non-cyanide copper-zinc electroplating bath using the copper foil as a cathode to form on at least one surface of the copper foil a carbon-containing copper-zinc coating.

Abstract: A copper clad laminate having a bonded side ensuring powerful adhesion between the copper foil and insulating layer, without providing protrusions on the copper foil or making roughing treatment or black treatment, by designing such a configuration that the copper foil has a metal layer on the side to be bonded with the insulating layer and the metal layer and insulating layer are cross-linked with each other by chemical bonds through sulfur atoms. Further, there is provided a multilayer printed circuit board which has a bonded side ensuring a powerful adhesion of the circuit copper foil and insulating layer, by designing such a configuration that the alternating metal layers and insulating layers are cross-linked with each other by chemical bonds through sulfur atoms.

Abstract: A copper foil for a printed wiring board which has a carbon-containing copper-zinc coating comprising 40 to 90 atomic % of copper, 5 to 50 atomic % of zinc and 0.1 to 20 atomic % of carbon is produced by dipping a copper foil in a non-cyanide copper-zinc electroplating bath containing a copper salt, a zinc salt, a hydroxycarboxylic acid or a salt thereof, an aliphatic dicarboxylic acid or a salt thereof and a thiocyanic acid or a salt thereof, and carrying out electrolysis in the non-cyanide copper-zinc electroplating bath using the copper foil as a cathode to form on at least one surface of the copper foil a carbon-containing copper-zinc coating.