Cylindrical gasket, method for manufacturing the same, and insertion-type exhaust pipe joint using the cylindrical gasket

The invention claimed is: 1. A method of manufacturing a cylindrical gasket for use in an insertion-type exhaust pipe joint, comprising the steps of: (1) compounding a graphite powder, an inorganic binder, and distilled water at a predetermined ratio and compounding them to fabricate a wet heat-resistant material containing the graphite powder and the inorganic binder; (2) passing a tubular metal wire net obtained by weaving a fine metal wire between a pair of rollers so as to be compressed in a radial direction to fabricate a belt-shaped metal wire net; (3) supplying the heat-resistant material to both surfaces of the belt-shaped metal wire net and rolling the heat-resistant material by the rollers to fill meshes of the belt-shaped metal wire net with the heat-resistant material, and subsequently drying the heat-resistant material filled in the meshes of the belt-shaped metal wire net to remove water in the heat-resistant material, to thereby form a composite belt-shaped member in which the heat-resistant material is filled and held in the meshes of the belt-shaped metal wire net; (4) convoluting the composite belt-shaped member into a cylindrical shape by at least two turns to fabricate a tubular base member; and (5) inserting the tubular base member into a cylindrical hollow portion of a die and subjecting the tubular base member to compression forming in the die in an axial direction thereof, wherein the cylindrical gasket includes: a reinforcing member made from the compressed belt-shaped metal wire net; the heat-resistant material filled in the meshes of the belt-shaped metal wire net of said reinforcing member and containing the graphite powder and the inorganic binder which are compressed; and pores which are dispersedly distributed in the reinforcing member and the heat-resistant material, and wherein said reinforcing member and said heat-resistant material are intertwined with each other so as to be provided with structural integrity, and with respect to a total volume of the cylindrical gasket, said reinforcing member occupies a volume of 32 to 60%, the heat-resistant material occupies a volume of 5 to 58%, and the pores occupy a volume of 10 to 35%. 2. The method of manufacturing a cylindrical gasket according to claim 1 , wherein the graphite powder is selected from at least one of expanded graphite powder, natural graphite powder, and artificial graphite powder. 3. The method of manufacturing a cylindrical gasket according to claim 2 , wherein the expanded graphite powder is a powder which is formed by cutting and pulverizing an expanded graphite sheet. 4. The method of manufacturing a cylindrical gasket according to claim 1 , wherein the inorganic binder is selected from at least one of aluminum dihydrogen phosphate, aluminum hydrogen phosphate, magnesium dihydrogen phosphate, magnesium hydrogen phosphate, calcium dihydrogen phosphate, calcium hydrogen phosphate, and phosphoric acid. 5. The method of manufacturing a cylindrical gasket according to claim 1 , wherein a mass ratio among the graphite powder, the inorganic binder, and the distilled water is 1:(0.1 to 1):(0.1 to 1).