Discharge surface treatment electrode and method of manufacturing the same

The invention claimed is: 1. A method of manufacturing a discharge surface treatment electrode used in discharge surface treatment for forming a wear-resistant film on a treatment target surface of a workpiece by using discharge energy of an electric discharge caused between the electrode and the workpiece, the wear-resistant film being made of a material of the electrode or a substance obtained by a reaction of the material of the electrode with the discharge energy, the method comprising: a slurry preparation step of preparing a slurry by mixing at least a powder of a Stellite alloy having a non-spherical particle shape with an average particle size of 3 μm or less prepared by use of a jet mill, a powder of a metal having a substantially spherical particle shape with an average particle size of 3 μm or less manufactured through an atomization process or a chemical process, and a solvent, wherein a mixing ratio by weight of the powder of the Stellite alloy having the non-spherical particle shape to the powder of the metal having the substantially spherical particle shape is within a range from 5:5 to 1:9; a granular powder preparation step of preparing granular powder by drying the solvent in the slurry after the slurry preparation step; a green compact preparation step of compression-molding a green compact out of the granular powder after the granular powder preparation step; and a heat treatment step of sintering the green compact by subjecting the green compact to heat treatment after the green compact preparation step. 2. The method of manufacturing a discharge surface treatment electrode of claim 1 , wherein the metal is a pure metal. 3. The method of manufacturing a discharge surface treatment electrode of claim 1 , wherein the metal is any of iron, cobalt, nickel, copper, chromium, and molybdenum. 4. A method of manufacturing a discharge surface treatment electrode used in discharge surface treatment for forming a wear-resistant film on a treatment target surface of a workpiece by using discharge energy of an electric discharge caused between the electrode and the workpiece, the wear-resistant film being made of a material of the electrode or a substance obtained by a reaction of the material of the electrode with the discharge energy, the method comprising: a slurry preparation step of preparing a slurry by mixing at least a powder of a Stellite alloy having a non-spherical particle shape with an average particle size of 3 μm or less prepared by use of a jet mill, a powder of a metal having a substantially spherical particle shape with an average particle size of 3 μm or less manufactured through an atomization process or a chemical process, and a solvent; a granular powder preparation step of preparing granular powder by drying the solvent in the slurry after the slurry preparation step; a green compact preparation step of compression-molding a green compact out of the granular powder after the granular powder preparation step; and a heat treatment step of sintering the green compact by subjecting the green compact to heat treatment after the green compact preparation step, wherein the metal is an alloy. 5. The method of manufacturing a discharge surface treatment electrode of claim 4 , wherein the metal is any of an iron-based alloy, a cobalt alloy, and a nickel alloy. 6. The method of manufacturing a discharge surface treatment electrode of claim 4 , wherein the metal is a stainless steel.