Compatibilized tire tread compositions

The invention claimed is: 1. A polyolefin-polybutadiene block-copolymer that is the reaction product of a functionalized polar polybutadiene (fPB), a vinyl-terminated macromer (VTM), and optional cross-linker compound (XL): where the vinyl-terminated macromer comprises a polyolefin block (PO) having a weight average molecular weight within the range of from 1000 to 150,000 g/mole; the functionalized polar polybutadiene (fPB) having a weight average molecular weight within the range of from 500 to 30,000 g/mole; and the optional cross-linker compound (XL) comprises at least two cross-linking moieties wherein at least one moiety reacts with the vinyl group of the VTM (XL-PO) and at least one moiety reacts with the fPB (fPB-XL). 2. The polyolefin-polybutadiene block-copolymer of claim 1 , wherein the VTM comprising the cross-linking moiety (XL-PO) reacts with the fPB to form the polyolefin-polybutadiene block-copolymer, or the fPB comprising the cross-linking moiety (fPB-XL) reacts with the VTM to form the polyolefin-polybutadiene block-copolymer. 3. The polyolefin-polybutadiene block-copolymer of claim 1 , wherein weight average molecular weight of the polyolefin-polybutadiene block-copolymer is within a range from 1,000 to 150,000 g/mole. 4. The polyolefin-polybutadiene block-copolymer of claim 1 , having the general formula: PO-XL-fPB; where “PO” is a polyolefin block having a weight average molecular weight within the range of from 1000 to 150,000 g/mole, the “fPB” is a functionalized polar polybutadiene block having a weight average molecular weight within the range of from 500 to 30,000 g/mole, and “XL” is a cross-linking moiety that covalently links the PO and fPB blocks. 5. The polyolefin-polybutadiene block-copolymer of claim 1 , wherein XL is directly derived from an epoxide, an organosilane, an organosiloxane, or an epoxy-siloxane. 6. The polyolefin-polybutadiene block-copolymer of claim 1 , wherein the fPB comprises a polybutadiene primary component and at least one functional group selected from primary, secondary or tertiary amines, acrylonitrile, hydroxide, styrene, isoprene, acrylate, methacrylate, and combinations thereof. 7. A tire tread formulation comprising the polyolefin-polybutadiene block-copolymer of claim 1 . 8. The tire tread formulation of claim 7 , further comprising 5 to 20 wt %, by weight of the formulation, of a propylene-α-olefin elastomer. 9. The tire tread formulation of claim 7 , further comprising 15 to 60 wt % of a styrenic copolymer; 0 to 40 wt % of processing oil; and 20 to 60 wt % of filler. 10. The tire tread formulation of claim 7 , wherein the Modulus at 300% of the cured composition is within the range of from 1000 psi to 2200 psi. 11. The tire tread formulation of claim 7 , wherein the Ultimate Tensile Strength of the cured composition is within the range of from 1600 psi to 3000 psi. 12. The tire tread formulation of claim 7 , wherein the Ultimate elongation of the cured composition is within the range of from 320% to 500%. 13. The tire tread formulation of claim 7 , wherein the Tangent Delta (0° C.) of the cured composition is greater than 0.330. 14. The tire tread formulation of claim 7 , wherein the Tangent Delta (60° C.) of the cured composition is greater than 0.172. 15. The tire tread formulation of claim 7 , wherein the Maximum Energy Loss (Tangent Delta, wherein the slope is zero) of the immiscible polyolefin domain is a temperature within the range from −30° C. to 10° C. 16. The tire tread formulation of claim 7 , wherein micelles comprising the polyolefin-polybutadiene block-copolymer in the polymer matrix of the other components have sizes that are preferred to be less than 20 microns.