Rubber composition for tire treads

The invention claimed is: 1. A rubber composition containing a rubber component that contains styrene-butadiene copolymer rubber and a filler; the composition being a rubber composition for tire treads, of which the temperature of the peak position of the temperature curve of tan δ is −16.0° C. or higher and −6.0° C. or lower, tan δ at the peak position is larger than 1.13, tan δ at 0° C. is 0.95 or more, tan δ at 60° C. is 0.135 or less, the value obtained by dividing the absolute value of the difference between tan δ at −5° C. and tan δ at 5° C. by the temperature difference between −5° C. and 5° C. {|(tan δ at −5° C.)−(tan δ at 5° C.)|/10} (/° C.) is smaller than 0.0451° C., and a content ratio of silica/carbon black is from 100/0 to 30/70; wherein method for measurement of bound styrene content in unit of % by mass: The content is calculated from the integration ratio of the 1 H-NMR spectrum, and wherein method for measurement of tan δ: Using a dynamic tensile viscoelasticity measuring testing machine, the value of tan δ at a frequency of 52 Hz, at an initial strain of 2%, at a dynamic strain of 1% and at a heating rate of 3° C./min is measured in a range of from −25° C. to 80° C. 2. A rubber composition containing a rubber component that contains at least two types of styrene-butadiene copolymer rubbers differing in the bound styrene content therein, and a filler; the composition being a rubber composition for tire treads, in which the difference between the bound styrene content St(A) of the styrene-butadiene copolymer rubber (A) having a high bound styrene content and the bound styrene content St(B) of the styrene-butadiene copolymer rubber (B) having a low bound styrene content {St(A)−St(B)} is from 6 to 22% by mass, tan δ at 60° C. is 0.135 or less, and of which tan δ at 0° C. is 0.95 or more, and the value obtained by dividing the absolute value of the difference between tan δ at −5° C. and tan δ at 5° C. by the temperature difference between −5° C. and 5° C. {|(tan δ at −5° C.)−(tan δ at 5° C.)|/10} (/° C.) is smaller than 0.045/° C. and a content ratio of silica/carbon black is from 100/0 to 30/70; wherein method for measurement of bound styrene content in unit of % by mass: The content is calculated from the integration ratio of the 1 H-NMR spectrum, and wherein method for measurement of tan δ: Using a dynamic tensile viscoelasticity measuring testing machine, the value of tan δ at a frequency of 52 Hz, at an initial strain of 2%, at a dynamic strain of 1% and at a heating rate of 3° C./min is measured in a range of from −25° C. to 80° C. 3. The rubber composition for tire treads according to claim 2 , wherein {|(tan δ at −5° C.)−(tan δ at 5° C.)|/10} (/° C.) is larger than 0.025/° C. 4. The rubber composition for tire treads according to claim 2 , wherein the filler is eccentrically located in the styrene-butadiene copolymer rubber (B) having a low bound styrene content. 5. The rubber composition for tire treads according to claim 2 , wherein the styrene-butadiene copolymer rubber (B) having a low bound styrene content is one modified with a nitrogen-containing compound or a silicon-containing compound. 6. The rubber composition for tire treads according to claim 2 , wherein the bound styrene content St(A) of the styrene-butadiene copolymer rubber (A) having a high bound styrene content is 40% by mass or more.