Method for producing sliding member, sliding member, and substrate material of sliding member

The invention claimed is: 1. A method of producing a sliding member, said method comprises the steps of: bonding a plain bearing layer over a first surface of a backing steel sheet, opposite to a second surface of the backing steel sheet; subjecting the plain bearing layer and the first protecting layer defined below to an electroplating, thereby depositing a Bi based overlay layer on the plain bearing layer, but neither depositing Bi on nor roughening a first surface of the first protecting layer facing away from the backing steel sheet; and prior to the step of electroplating of the Bi-based overlay layer, said method further comprises a step of forming a first protecting layer on the second surface of the backing steel sheet, said first protecting layer consisting of a noble metal, wherein said electroplating comprises a step of immersing the whole of a substrate material comprising the backing steel sheet, the plain bearing layer, and the first protecting layer into a Bi-ion containing plating liquor, and the noble metal of the first protecting layer is electrochemically more noble than Bi. 2. The method according to claim 1 , wherein said method consists of said bonding step, said forming of the first protecting layer step, and said electroplating step, and said substrate material consists of the backing steel sheet, the plain bearing layer and the first protecting layer. 3. The method according to claim 1 , wherein the noble metal is Cu. 4. A method of producing a sliding member, said method comprises the steps of: bonding a plain bearing alloy layer over a first surface of a backing steel sheet, opposite to a second surface of the backing steel sheet; electroplating to subject the plain bearing alloy layer and the first protecting layer defined below to the electroplating, thereby depositing a Bi based overlay on the plain bearing alloy layer but not depositing Bi on the first protecting layer on a surface away from the backing steel sheet; and prior to the step of electroplating of the Bi-based overlay layer, said method further comprises the steps of forming a first protecting layer on the second surface of the backing steel sheet, said first protecting layer consisting of a noble metal; and forming a second protecting layer consisting of a noble metal on the first surface of the backing steel sheet, wherein said electroplating comprises a step of immersing the whole of a substrate material comprising the backing steel sheet, the plain bearing alloy layer, and the first and second protecting layers into a Bi plating liquor, and the noble metal of the first and second protecting layers is electrochemically more noble than Bi. 5. The method according to claim 4 , wherein the noble metal is Cu. 6. A method of producing a sliding member, said method comprises the steps of: bonding a plain bearing alloy layer over a first surface of a backing steel sheet, opposite to a second surface of the backing steel sheet; electroplating to subject the plain bearing alloy layer and the first protecting layer defined below to the electroplating, thereby depositing a Bi based overlay on the plain bearing alloy layer, but not depositing Bi on the first protecting layer on a surface away from the backing steel sheet; and prior to the step of electroplating the Bi-based overlay layer, said method further comprises the steps of: forming a first protecting layer on the second surface of the backing steel sheet, said first protecting layer consisting of a noble metal; forming a second protecting layer consisting of a base metal on the first surface of the backing steel sheet; passivating a surface of the second protecting layer on a surface of the second protecting layer away from the backing steel sheet; and pickling the passivated surface of the second protecting layer, thereby removing passivated material prior to the step of electroplating, wherein said electroplating comprises a step of immersing the whole of a substrate material comprising the backing steel sheet, the plain bearing alloy layer, and the first and second protecting layers into a Bi plating liquor, and wherein the noble metal of the first protecting layer is electrochemically more noble than Bi, and the base metal of the second protecting layer is electrochemically less noble than Bi, capable of forming a passivated state on a surface thereof and selected from the group consisting of Al, Cr and Ni. 7. The method according to claim 6 , wherein the noble metal is Cu. 8. The method according to claim 6 , wherein the base metal is selected from the group consisting of Cr and Ni. 9. The method according to claim 6 , wherein the base metal is Al and the passivation is carried out by anodizing.