Thermoplastic vulcanizates

What is claimed is: 1. A method for preparing a thermoplastic vulcanizate, the method comprising: (i) charging a reactor with an olefinic copolymer rubber, where the olefinic copolymer rubber is metallocene catalyzed and is characterized by a bimodal molecular weight distribution that includes a first fraction and a second fraction, where the rubber has an average branching index of greater than 0.95, where the rubber includes less than 5 parts by weight oil per 100 parts by weight rubber, where the rubber includes less than 1 parts by weight non-rubber particulate per 100 parts by weight rubber, where the rubber comprises 49 wt % of the first fraction; where the first fraction is characterized by a Mooney viscosity that is greater than the Mooney viscosity of the second fraction, where the second fraction is characterized by a Mooney viscosity (ML (1+4)@125° C.) greater than 15 and less than 50, where the rubber comprises less than 65 wt % ethylene-derived units and less than 5 wt % diene derived units, and where the rubber is in the form of granules having a particle size less than 8 mm; (ii) charging the reactor, contemporaneously or sequentially with respect to the rubber, with a thermoplastic resin, an oil, and a cure system; (iii) melt mixing the rubber, the thermoplastic resin, the oil, and the cure system; and (iv) dynamically vulcanizing the rubber to form a thermoplastic vulcanizate, wherein the rubber within the thermoplastic vulcanizate forms dispersed particles of vulcanized rubber within a continuous phase or matrix of the thermoplastic resin. 2. The method of claim 1 , where said step of charging the reactor, contemporaneously or sequentially with respect to the rubber, with a thermoplastic resin, an oil, and a cure system also includes charging the reactor with filler. 3. The method of claim 1 , where the olefinic copolymer rubber includes less than 1 part by weight oil per 100 parts by weight rubber. 4. The method of claim 3 , where the olefinic copolymer rubber is devoid of oil. 5. The method of claim 1 , where the olefinic copolymer rubber includes less than 0.1 part by weight non-rubber particulate per 100 parts by weight rubber. 6. The method of claim 1 , where the olefinic copolymer rubber includes less than 0.01 part by weight non-rubber particulate per 100 parts by weight rubber. 7. The method of claim 1 , where the olefinic copolymer rubber is in the form of granules having a particle size of less than 6 mm. 8. The method of claim 1 , where the olefinic copolymer rubber is a terpolymer of ethylene, propylene, and 5-ethylidene-2-norbornene, and where the thermoplastic resin is a propylene-based thermoplastic. 9. The method of claim 1 , where the process is continuous. 10. A process for preparing a thermoplastic vulcanizate, the process comprising: (i) charging a reactor with an olefinic copolymer rubber, where the olefinic copolymer rubber is synthesized by employing a metallocene catalyst and is characterized by a bimodal molecular weight distribution that includes a first fraction and a second fraction, where the rubber has an average branching index of greater than 0.95; where the first fraction is characterized by a Mooney viscosity that is greater than the Mooney viscosity of the second fraction, where the second fraction is characterized by a Mooney viscosity (ML (1+4)@125° C.) greater than 15 and less than 50, where the rubber comprises 49 wt % of the first fraction, where the rubber comprises less than 65 wt % ethylene-derived units and less than 5 wt % diene derived units, and where the rubber includes less than 1 part by weight oil per 100 parts by weight rubber; (ii) charging the reactor, contemporaneously or sequentially with respect to the rubber, with a thermoplastic resin, an oil, and a cure system; (iii) melt mixing the rubber, the thermoplastic resin, the oil, and the cure system; and (iv) dynamically vulcanizing the rubber to form a thermoplastic vulcanizate, wherein the rubber within the thermoplastic vulcanizate forms dispersed particles of vulcanized rubber within a continuous phase or matrix of the thermoplastic resin.