V-ribbed belt, production method therefor, and rubber composition

The invention claimed is: 1. A V-ribbed belt comprising: a tension rubber layer made of a vulcanizate of a rubber composition comprising a rubber component and short fibers; and a core wire, wherein a proportion of the short fibers in the rubber composition is 15-50 parts by mass with respect to 100 parts by mass of the rubber component, and the rubber composition has a minimum Mooney scorch viscosity measured at 125° C. of 70-130. 2. The V-ribbed belt according to claim 1 , wherein the vulcanizate has a hardness (JIS-A) of 80-90. 3. The V-ribbed belt according to claim 1 , wherein an orientation direction of the short fibers is a belt width direction. 4. The V-ribbed belt according to claim 1 , wherein the short fibers have an average fiber length of 1-10 mm. 5. The V-ribbed belt according to claim 1 , wherein fibers constituting the core wire have a tensile elastic modulus of 50 GPa or more. 6. The V-ribbed belt according to claim 1 , wherein the core wire is in contact with the vulcanizate. 7. The V-ribbed belt according to claim 1 , wherein a deviation of the core wire in a belt thickness direction is 0.08 mm or less. 8. The V-ribbed belt according to claim 1 , further comprising a compression rubber layer provided on an inner circumference side of the tension rubber layer, wherein the tension rubber layer forms an outer circumferential surface of the belt, and the core wire is arranged to be in contact with and interposed between the tension rubber layer and the compression rubber layer. 9. A manufacturing method of the V-ribbed belt according to claim 1 , the method comprising a step of pressing a laminate comprising a sheet of the rubber composition and the core wire against a die. 10. A rubber composition which is an unvulcanized rubber composition for forming a tension rubber layer of a V-ribbed belt, the rubber composition comprising a rubber component and short fibers, wherein a proportion of the short fibers is 15-50 parts by mass with respect to 100 parts by mass of the rubber component, and the rubber composition has a minimum Mooney scorch viscosity measured at 125° C. of 70-130.