Friction drive belt

The invention claimed is: 1. A friction drive belt, comprising: a belt body configured to be wrapped around pulleys in contact therewith to transmit power therebetween, wherein at least a pulley contact portion of the belt body is made of a rubber composition comprising: raw rubber containing an ethylene-α-olefin elastomer; and at least one layered silicate selected from monmorillonite and hectorite and having swelling power of 40 ml/2 g or more, and in an amount of 30-60 parts by mass per 100 parts mass of the rubber, wherein a water content of the rubber composition is 0.7-3.0 mass % of the rubber composition, and wherein the at least one layered silicate has a water swelling property such that a rate of change in mass of the rubber composition that forms the pulley contact portion is 0.1% or more when the rubber composition is immersed in water for one minute. 2. The friction drive belt of claim 1 , wherein the layered silicate has cation exchange capacity of 70 meg/100 g or more. 3. The friction drive belt of claim 1 , wherein the rubber composition that forms the pulley contact portion has a detection peak of 2θ=9° or less in a measurement range of 2θ=0.2 to 15° in X-ray diffractometry. 4. The friction drive belt of claim 1 , wherein an area ratio of the layered silicate exposed at a surface of the pulley contact portion to the surface of the pulley contact portion is 12% or more. 5. The friction drive belt of claim 1 , wherein the layered silicate contains montmorillonite. 6. The friction drive belt of claim 1 , wherein the belt body is a V-ribbed belt body. 7. A belt transmission system, comprising: the friction drive belt of claim 1 wrapped around a plurality of pulleys. 8. The belt transmission system of claim 7 , wherein the belt transmission system is an accessory drive belt transmission system for an automobile. 9. A method for manufacturing a friction drive belt, comprising the step of: forming a drive belt in accordance with claim 1 , including the sub-step of placing a molded friction drive belt, in which at least the pulley contact portion of the belt main body is made of the rubber composition formed by mixing the layered silicate with the raw rubber, in a water vapor atmosphere or water for a predetermined time. 10. The method of claim 9 , wherein the molded friction drive belt is placed in the water vapor atmosphere or the water for 8 hours or more. 11. The friction drive belt of claim 3 , wherein the layered silicate has cation exchange capacity of 70 meg/100 g or more. 12. The friction drive belt of claim 1 wherein the ethylene-α-olefin elastomer is EPDM and the at least one layered silicate is selected from montmorillonite and hectorite.