Multi-layered thermoplastic roofing membranes

What is claimed is: 1. A multi-layered membrane comprising: (i) skin layers, where each skin layer includes from about 40 to about 85 percent by weight ethylene-based olefinic block copolymer, based on the total weight of the thermoplastic component of the respective skin layers, and at least 33% by weight filler based on the total weight of the respective skin layers; and (ii) two or more core layers, where each core layer includes greater than 24% by weight propylene-based elastomer, based on the polymeric content of the respective core layers, and at least 20% by weight filler based on the total weight of the respective core layers. 2. The multi-layered membrane of claim 1 , where the membrane includes: (i) a top layer including from about 40 to about 85 percent by weight ethylene-based olefinic block copolymer, based on the total weight of the thermoplastic component of the top layer, and greater than 33% by weight magnesium hydroxide based upon the total weight of the top layer; (ii) an upper-middle layer including greater than 24% by weight propylene-based elastomer, based on the polymeric content of the upper-middle layer, and greater than 25% by weight calcium carbonate based upon the total weight of the upper-middle layer; (iii) a lower-middle layer including greater than 24% by weight propylene-based elastomer, based on the polymeric content of the lower-middle layer, and greater than 25% by weight calcium carbonate based upon the total weight of the lower-middle layer; and (iv) a bottom layer including from about 40 to about 85 percent by weight ethylene-based olefinic block copolymer, based on the thermoplastic content of the bottom layer, and greater than 33 by weight calcium carbonate based upon the total weight of the bottom layer, where said top layer and bottom layer form said skin layers, and said upper-middle layer and lower-middle layer form said core layers. 3. The multi-layered membrane of claim 1 , where the skin layers include greater than 60 weight percent ethylene-based olefinic block copolymer based on the total weight of the thermoplastic component of the respective skin layers. 4. The multi-layered membrane of claim 2 , where the core layers include greater than 30% by weight calcium carbonate based upon the total weight of the respective core layers. 5. The multi-layered membrane of claim 4 , where the core layers include calcium carbonate and magnesium hydroxide. 6. The multi-layered membrane of claim 2 , where the top layer and the upper-middle layer are coextruded, where the bottom layer and the lower-middle layer are coextruded, and where the upper-middle layer is laminated to the lower-middle layer with a fabric sandwiched therebetween. 7. The multi-layered membrane of claim 1 , where the thickness of the membrane is from about 45 to about 75 mil. 8. The multi-layered membrane of claim 2 , where the top layer accounts for about 15 to about 45%, where the bottom layer accounts for about 15 to about 45%, where the upper middle layer accounts for about 15 to about 45%, and where the lower middle layer accounts for about 15 to about 45% of the overall thickness of the membrane. 9. The multi-layered membrane of claim 1 , where the propylene-based elastomer is characterized by a melting point that is less than 110° C. and a heat of fusion of less than 75 J/g. 10. The multi-layered membrane of claim 1 , where the multi-layered membrane satisfies the standards of ASTM D-6878-03. 11. The multi-layered membrane of claim 2 , where the ethylene-based olefinic block copolymer includes a first plurality of ethylene-α-olefin blocks having a first α-olefin content, and a second plurality of ethylene-α-olefin blocks having a second α-olefin content, where the first α-olefin content is greater than the second α-olefin content. 12. A roof system where the membrane of claim 1 is adhered to a roof substrate. 13. A method of making the roofing membranes of claim 2 , the method comprising: (i) forming a first co-extrudate by co-extruding a first composition including an ethylene-based olefinic copolymer and a propylene-based elastomer and a second composition including a propylene-based elastomer; (ii) forming a second co-extrudate by co-extruding a third composition including a propylene-based elastomer and a fourth composition including an ethylene-based olefinic copolymer and a propylene-based elastomer; and (iii) laminating the first co-extrudate to the second co-extrudate. 14. The multi-layered membrane of claim 2 , where the membranes have a storage modulus, as determined by DMA, in the machine direction at −20° C. of less than 850 MPa. 15. The multi-layered membrane of claim 14 , where the membranes have a flexural modulus, as determined by ASTM D790, of less than 150 MPa. 16. The multi-layered membrane of claim 15 , where the membranes have a Shore D hardness, as determined by ASTM D2240, of less than 40. 17. The multi-layered membrane of claim 16 , where the membranes have a normalized Taber stiffness, in the machine direction, of less than 15. 18. The multi-layered membrane of claim 17 , where the membranes have a normalized Taber stiffness, in either the machine or cross-machine direction, of from about 1 to about 12. 19. The multi-layered membrane of claim 18 , where the membranes have Taber stiffness values of the membranes of the present invention are at least 50% lower than comparative membranes prepared using propylene-based thermoplastic polyolefins such as reactor copolymers.