Tire with asymmetric conductivity path

What is claimed is: 1 . A tire comprising a tread, a pair of bead portions, a pair of sidewalls, wherein each of the sidewalls extends from the tread to a respective bead portion, a pair of chafers, at least one carcass ply, and one or more belt plies arranged radially between the tread and the at least one carcass ply in a crown area of the tire, wherein a first sidewall of the pair of sidewalls and a first chafer of the pair of chafers, which is adjacent the first sidewall, have an electrical volume resistivity lower than 10 8 ohm·cm, and wherein at least one of i) a second sidewall of the pair of sidewalls, and ii) a second chafer of the pair of chafers, which is adjacent the second sidewall, has an electrical volume resistivity higher than 10 9 ohm·cm. 2 . The tire according to claim 1 , wherein the second sidewall has an electrical volume resistivity higher than 10 9 ohm·cm. 3 . The tire according to claim 1 , wherein the second chafer and the second sidewall have an electrical volume resistivity higher than 10 9 ohm·cm. 4 . The tire according to claim 1 , wherein, the tread comprises a tread base having an electrical volume resistivity lower than 10 8 ohm·cm, and which is in contact with said first sidewall. 5 . The tire according to claim 4 , wherein the tread base further comprises a skirt portion at its axially outer side, which is closest to the first sidewall, wherein the skirt portion has an electrical volume resistivity lower than 10 8 ohm·cm. 6 . The tire according to claim 1 , wherein the tread further comprises a tread strip having an electrical volume resistivity lower than 10 8 ohm·cm and extending transversely through the tread from a radially outer surface of the tread to a radially inner position of the tread. 7 . The tire according to claim 6 , wherein the tread further comprises at least one tread cap layer and one or more tread base layers, wherein the tread strip extends through the at least one tread cap layer to contact at least one of the tread base layers. 8 . The tire according to claim 7 , wherein the tire has a first tread base layer and a second tread base layer, wherein the first tread base layer has an electrical volume resistivity lower than 10 8 ohm·cm, wherein the second tread base layer has an electrical volume resistivity higher than 10 9 ohm·cm; and wherein the tread strip contacts at least the first tread base layer. 9 . The tire according to claim 8 , wherein the first tread base layer extends over at most 40% of the total axial width of the tread, and wherein the second tread base layer extends over at least 60% of the total axial width of the tread. 10 . The tire according to claim 8 , wherein the first tread base layer and the second tread base layer are arranged axially beside one another, and wherein the first tread base layer is provided axially closer to the first sidewall than the second tread base layer. 11 . The tire according to claim 6 , wherein the tread strip has a maximum width within a range of 0.2 mm to 9 mm, measured in the axial direction of the tire. 12 . The tire according to claim 7 , wherein, apart from the tread strip, the at least one tread cap layer has an electrical volume resistivity higher than 10 9 ohm·cm. 13 . The tire according to claim 7 , wherein the tread comprises: a first tread cap layer intended to contact the road; a second tread cap layer provided radially below the first tread cap layer; a first tread base layer provided radially below the second tread cap layer; a second tread base layer provided radially below the second tread cap layer and axially beside the first tread base layer. 14 . The tire according to claim 13 , wherein the first tread base layer extends over less than 30% of the total axial width of the first tread cap layer and is in contact with the tread strip at a radially inner end of the tread strip, and wherein the first tread base layer is provided on the same lateral side of the tire as the first sidewall. 15 . The tire according to claim 8 , wherein one or more of the tread strip, the first sidewall, the first chafer and the first tread based layer comprise one or more of: a) a rubber composition having an electrical volume resistivity lower than 10 7 ohm·cm; b) a rubber composition comprising more than 50 phr of carbon black; and c) a rubber composition comprising carbon black having an iodine absorption of at least 100 g/kg. 16 . The tire according to claim 8 , wherein one or more of i) the at least one tread cap layer, ii) the second tread base layer, iii) the second sidewall; iv) the second chafer, v) the one or more belt plies, vi) the at least one carcass ply, and vii) an overlay of the tire comprise one or more of: a) a rubber composition having an electrical volume resistivity higher than 10 9 ohm·cm; b) a rubber composition comprising less than 45 phr of carbon black; and c) a rubber composition comprising carbon black having an iodine absorption of less than 90 g/kg. 17 . The tire according to claim 1 , wherein each chafer contacts a radially inner end portion of the respective sidewall and extends to a portion radially below a bead of the respective bead portion. 18 . The tire according to claim 1 , wherein the first sidewall comprises a rubber composition having a tangent delta value higher than 0.1 and the second sidewall comprises a rubber composition having a tangent delta value lower than 0.09. 19 . A tire comprising a tread, a pair of bead portions, a pair of sidewalls, wherein each of the sidewalls extends from the tread to a respective bead portion, at least one carcass ply, and one or more belt plies arranged radially between the tread and the at least one carcass ply in a crown area of the tire, wherein the tread comprises a first tread base layer and a second tread base layer, wherein the first tread base layer has an electrical volume resistivity lower than 10 8 ohm·cm and wherein the second tread base layer has an electrical volume resistivity higher than 10 9 ohm·cm; and wherein the first tread base layer is arranged axially beside the second tread base layer. 20 . A tire comprising a tread, a pair of bead portions, a pair of sidewalls, wherein each of the sidewalls extends from the tread to a respective bead portion, a pair of chafers, at least one carcass ply, and one or more belt plies arranged radially between the tread and the at least one carcass ply in a crown area of the tire, wherein each of a first sidewall of the pair of sidewalls and a first chafer of the pair of chafers, which is adjacent the first sidewall, comprises one or more rubber compositions comprising at least 39 phr of carbon black, and wherein at least one of i) a second sidewall of the pair of sidewalls, and ii) a second chafer of the pair of chafers, which is adjacent the second sidewall, comprises one or more rubber compositions comprising at most 35 phr of carbon black.