A tip rod made of a fiber reinforced resin has a solid structure at least at its distal end portion. The tip rod is formed by dispersing reinforcement fibers in a matrix resin, molding the matrix resin that contains the reinforcement fibers into a prescribed shape, and heating the molded matrix resi
A tip rod made of a fiber reinforced resin has a solid structure at least at its distal end portion. The tip rod is formed by dispersing reinforcement fibers in a matrix resin, molding the matrix resin that contains the reinforcement fibers into a prescribed shape, and heating the molded matrix resin that contains the reinforcement fibers to be cured. An average diameter of the reinforcement fibers is 3 to 15 μm, an average length of the reinforcement fibers is 0.5 to 10 mm, a content of the fibers dispersed in the matrix resin is 3 to 50 wt %. The solid structure of the tip rod includes an outer layer, an intermediate layer, and an inner layer in which the reinforcement fibers are directed in a different direction for each layer. Alternatively the structure may include the outer layer and the inner layer.
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1. A tip rod made of a fiber reinforced resin and having a solid structure at least at its distal end portion, wherein the tip rod is formed by dispersing reinforcement fibers in a matrix resin, molding the matrix resin that contains the reinforcement fibers into a prescribed shape, and heating the
1. A tip rod made of a fiber reinforced resin and having a solid structure at least at its distal end portion, wherein the tip rod is formed by dispersing reinforcement fibers in a matrix resin, molding the matrix resin that contains the reinforcement fibers into a prescribed shape, and heating the molded matrix resin that contains the reinforcement fibers to be cured, an average diameter of the reinforcement fibers is 3 to 15 μm, an average length of the reinforcement fibers is 0.5 to 10 mm, a content of the fibers dispersed in the matrix resin is 3 to 50 wt %,the solid structure of the tip rod includes an outer layer, an intermediate layer, and an inner layer in which the reinforcement fibers are directed in a different direction for each layer,wherein the intermediate layer includes two layers in which the reinforcement fibers are directed in a different direction for each layer,wherein equal to or more than 80% of the reinforcement fibers dispersed in one of the two layers are directed at an angle of 30 to 60 degrees with respect to a longitudinal axial direction of the tip rod,wherein the reinforcement fibers dispersed in other of the two layers are directed randomly, andwherein the two layers are arranged alternately along the longitudinal axial direction of the tip rod. 2. The tip rod of claim 1, wherein equal to or more than 80% of the reinforcement fibers dispersed in the outer layer are directed along a longitudinal axial direction of the tip rod. 3. The tip rod of claim 1, wherein equal to or more than 80% of the reinforcement fibers dispersed in the intermediate layer are directed at an angle of 30 to 60 degrees with respect to a longitudinal axial direction of the tip rod. 4. The tip rod of claim 1, wherein the reinforcement fibers dispersed in the inner layer are directed randomly. 5. A fishing rod comprising: the tip rod of claim 1 at its distal end. 6. The fishing rod of claim 5 wherein the fishing rod is a telescopic type, a jointed type, or an inversely jointed type. 7. A fishing rod, wherein the whole of the fishing rod has the structure of the tip rod of claim 1. 8. A tip rod made of a fiber reinforced resin and having a solid structure at least at its distal end portion, comprising: the tip rod is formed by dispersing reinforcement fibers in a matrix resin, molding the matrix resin that contains the reinforcement fibers into a prescribed shape, and heating the molded matrix resin that contains the reinforcement fibers to be cured, an average diameter of the reinforcement fibers is 3 to 15 μm, an average length of the reinforcement fibers is 0.5 to 10 mm, a content of the fibers dispersed in the matrix resin is 3 to 50 wt %, andthe solid structure of the tip rod includes an outer layer and an inner layer in which the reinforcement fibers are directed in a different direction for each layer,wherein the reinforcement fibers dispersed in the inner layer and situated closer to the outer layer are aligned at an angle with a longitudinal axial direction of the tip rod,wherein the alignment of reinforcement fibers in the inner layer gradually changes such that the angle increases as they are situated closer to a center area of the tip rod, andwherein the reinforcement fibers in the center area are directed randomly. 9. The tip rod of claim 8, wherein 80 % of the reinforcement fibers dispersed in the outer layer are arranged along a longitudinal axial direction of the tip rod. 10. The tip rod of claim 8, wherein alignment of the reinforcement fibers dispersed in the inner layer gradually changes such that a tilt angle of the fibers increases as they are situated closer to a center area of the tip rod, and the reinforcement fibers are directed randomly in the center area. 11. A fishing rod comprising: the tip rod of claim 8 at its distal end. 12. The fishing rod of claim 11 wherein the fishing rod is a telescopic type, a jointed type, or an inversely jointed type. 13. A fishing rod, wherein the whole of the fishing rod has the structure of the tip rod of claim 8.
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