Microporous material and a method of making same

What is claimed is: 1. A microporous membrane comprising: a mixture of ultrahigh molecular weight polyethylene (UHMWPE) and filler in a weight ratio of filler to UHMWPE in a range of 1:9 to 15:1, the membrane having a plurality of micropores, a porosity in the range of 30-80%, and a machine direction (MD) tensile strength of greater than 25 N/mm 2 when said membrane has a thickness in a range of 17.8 to 71.1 micrometers, said membrane being a stretched and subsequently calendered membrane and having a pore size distribution where an average pore diameter is in a range of 0.01 to 0.60 micrometers and no pore with a pore size greater than 1 micron, wherein the membrane is at least one layer of a battery separator. 2. The microporous membrane of claim 1 , having a wet out time of less than 180 seconds. 3. The microporous membrane of claim 1 , having a shrinkage in the machine direction of less than 10%. 4. The microporous membrane of claim 1 , where said filler is selected from the group consisting of: silica, mica, montmorillonite, kaolinite, asbestos, talc, diatomaceous earth, vermiculite, natural and synthetic zeolites, cement, calcium silicate, clay, aluminum silicate, sodium aluminum silicate, aluminum polysilicate, alumina silica gels, glass particles, carbon black, activated carbon, carbon fibers, charcoal, graphite, titanium oxide, lead oxide, tungsten, iron oxide, copper oxide, zinc oxide, antimony oxide, zirconia, magnesia, alumina, molybdenum disulfide, zinc sulfide, barium sulfate, strontium sulfate, calcium carbonate, and magnesium carbonate. 5. The microporous membrane of claim 1 , where said filler is selected from the group consisting of: silica, precipitated silica, silica gel, fumed silica, mica, talc, diatomaceous earth, carbon black, activated carbons, carbon fibers, titanium oxide and calcium carbonate. 6. The microporous membrane of claim 1 , where said UHMWPE is mixed with a high density (HD) polyethylene to produce a polyolefin mixture, where said polyolefin mixture has at least 50% UHMWPE by weight of said polyolefin mixture; where a weight ratio of said filler to said polyolefin mixture is in a range of from 1:9 to 15:1; and where said mixture comprises UHMWPE and HD polyethylene and said filler is distributed throughout said mixture. 7. The microporous membrane of claim 1 , where said microporous membrane has no pores greater in size than 0.50 micrometers; and where a median pore size being between or equal to 0.01 and 0.3 micrometers and said pores vary in size by plus or minus 0.2 micrometers or less. 8. A battery separator comprising the microporous membrane of claim 1 . 9. A battery comprising the battery separator of claim 8 . 10. The battery of claim 9 , wherein the battery is selected from the group of lead acid batteries, Edison batteries, nickel-cadmium batteries, zinc batteries, nickel metal hydride batteries, silver oxide batteries, Leclanche batteries, magnesium batteries, alkaline batteries, mercury batteries, mercad batteries, lithium primary and lithium secondary batteries, nickel hydrogen batteries, sodium sulfur batteries, and sodium nickel chloride batteries. 11. The battery of claim 9 , wherein the battery is a lithium battery. 12. The battery of claim 9 , wherein the battery is a lead acid battery. 13. A microporous membrane comprising: a mixture of ultrahigh molecular weight polyethylene (UHMWPE) and filler in a weight ratio of filler to UHMWPE in a range of 1:9 to 15:1, the membrane having a plurality of micropores, a porosity in the range of 30-80%, and a machine direction (MD) tensile strength of greater than 25 N/mm 2 when said membrane has a thickness of less than 75 micrometers, said membrane being a stretched and subsequently calendered membrane and having a pore size distribution where an average pore diameter is in a range of 0.01 to 0.60 micrometers and no pore with a pore size greater than 1 micron, wherein the membrane is at least one layer of a battery separator. 14. The microporous membrane of claim 13 , having a wet out time of less than 180 seconds. 15. The microporous membrane of claim 13 , having a shrinkage in the machine direction of less than 10%. 16. The microporous membrane of claim 13 , where said filler is selected from the group consisting of: silica, precipitated silica, silica gel, fumed silica, mica, talc, diatomaceous earth, carbon black, activated carbons, carbon fibers, titanium oxide and calcium carbonate. 17. The microporous membrane of claim 13 , where said UHMWPE is mixed with a high density (HD) polyethylene to produce a polyolefin mixture, where said polyolefin mixture has at least 50% UHMWPE by weight of said polyolefin mixture; where a weight ratio of said filler to said polyolefin mixture is in a range of from 1:9 to 15:1 and where said mixture comprises UHMWPE and HD polyethylene and said filler is distributed throughout said mixture. 18. A battery separator comprising the microporous membrane of claim 13 . 19. A battery comprising the battery separator of claim 18 . 20. The battery of claim 19 , wherein the battery is selected from the group of lead acid batteries, Edison batteries, nickel-cadmium batteries, zinc batteries, nickel metal hydride batteries, silver oxide batteries, Leclanche batteries, magnesium batteries, alkaline batteries, mercury batteries, mercad batteries, lithium primary and lithium secondary batteries, nickel hydrogen batteries, sodium sulfur batteries, and sodium nickel chloride batteries. 21. The battery of claim 19 , wherein the battery is a lithium battery. 22. The battery of claim 19 , wherein the battery is a lead acid battery.