Sheet press molding method and method of manufacturing fuel cell separator

The invention claimed is: 1. A sheet press molding method, comprising: a process of forming a molded product having one or more flow channels to which a recess and protrusion pattern is transferred, by pressurizing a sheet-shaped material including a resin composition and 60 vol. % to 95 vol. % of a filler using a pair of molds, at least one of which has a predetermined recess and protrusion pattern composed of one or more recessed portions and one or more protruding portions, wherein the pair of molds have a first mold and a second mold, the first mold includes a channel pattern having one or more protruding portions disposed on the position corresponding to the flow channels, a dummy pattern having one or more dummy protruding portions, and one or more recessed portions which is formed between the protruding portions of the channel pattern, the dummy protruding portions, and the side surfaces of the inside of the first mold, the dummy protruding portions are separated from the protruding portions of the channel pattern by the recessed portions, and the total volume of the protruding portions of the channel pattern and the dummy protruding portions is same as the total volume of the recessed portions, wherein the total volume of the recessed portions refers to the volume of the recessed portions between an imaginary surface along the top surface of the first mold and the bottom of the recessed portions. 2. The sheet press molding method according to claim 1 , wherein the protruding portions of the channel pattern and the dummy protruding portions have a uniform height, and the total area in which the protruding portions of the channel pattern and the dummy protruding portions are formed on the first mold is the same as the remaining area of the first mold where the protruding portions and the dummy protruding portions are not formed. 3. The sheet press molding method according to claim 1 , wherein the dummy pattern is provided at a plurality of areas. 4. The sheet press molding method according to claim 1 , wherein the sheet-shaped material has a uniform thickness. 5. The sheet press molding method according to claim 1 , wherein the filler is a carbonaceous material. 6. The sheet press molding method according to claim 1 , wherein the dummy protruding portions have widths that are not uniform with widths of the protruding portions of the channel pattern. 7. A method of manufacturing a fuel cell separator, comprising: a process of forming a fuel cell separator having a flow channel recessed portion, to which a recess and protrusion pattern is transferred, by pressurizing a sheetshaped material including a resin composition and 80 mass% to 98 mass% of a carbonaceous material using a pair of molds, at least one of which has a predetermined recess and protrusion pattern composed of recessed portions and protruding portions, wherein the pair of molds have a first mold and a second mold, the first mold includes a channel pattern having one or more protruding portions disposed on a position corresponding to the flow channels, a dummy pattern having one or more dummy protruding portions, and one or more recessed portions which is formed between the protruding portions of the channel pattern, the dummy protruding portions, and the side surfaces of the inside of the first mold, the dummy protruding portions are separated from the protruding portions of the channel pattern by the recessed portions, and the total volume of the protruding portions of the channel pattern and the dummy protruding portions is same as the total volume of the recessed portions, wherein the total volume of the recessed portions refers to the volume of the recessed portions between an imaginary surface along the top surface of the first mold and the bottom of the recessed portions. 8. The method of manufacturing a fuel cell separator according to claim 7 , wherein the protruding portions of the channel pattern and the dummy protruding portions have a uniform height, and the total area in which the protruding portions of the channel pattern and the dummy protruding portions are formed on the first mold is same as the remaining area of the first mold where the protruding portions and the dummy protruding portions are not formed. 9. The method of manufacturing a fuel cell separator according to claim 7 , wherein the dummy pattern is provided at a plurality of areas. 10. The method of manufacturing a fuel cell separator according to claim 7 , wherein the dummy pattern is provided at locations corresponding to areas that become gas supply holes of the fuel cell separator. 11. The method of manufacturing a fuel cell separator according to claim 7 , wherein the dummy protruding portions have widths that are not uniform with widths of the protruding portions of the channel pattern.