Polyethylene separator for energy storage cell
DCFirst Claim
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1. A battery separator comprising a porous polyolefin matrix containing from about 0.5 to about 30 dry weight percent porous particulate filler, wherein said filler contains cured rubber and wherein said cured rubber has a porosity of at least about 40% void volume.
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Abstract
An improved separator for an energy storage cell is described which is made of a porous polyolefin matrix and contains from about 0.5 to about 30 dry weight percent particulate filler. The particulate filler is a cured, porous rubber material which enhances the electrochemical properties of the separator as compared to conventional polyolefin separators.
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- 1. A battery separator comprising a porous polyolefin matrix containing from about 0.5 to about 30 dry weight percent porous particulate filler, wherein said filler contains cured rubber and wherein said cured rubber has a porosity of at least about 40% void volume.
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8. A method for making a battery separator for an energy-cell which comprises,
mixing a thermoplastic polyolefinic material, from about 40 to about 80 dry weight percent precipitated silica, from about 0.5 to about 30 dry weight percent particulate filler containing cured rubber and an amount of mineral oil sufficient to form a powdery premix, feeding the powdery premix to feed hopper of a twin screw extruder, providing additional mineral oil to the extruder downstream of the feed hopper to form an extrudable mixture, extruding the mixture at a temperature sufficient to form a substantially homogeneous web having a polyolefin matrix, and extracting mineral oil from the web to a residual mineral oil content of from about 10 to about 20 percent by weight, whereby a polyolefin web having an average porosity ranging from about 0.6 to about 2.0 cubic centimeters/gram as determined by a mercury intrusion method is provided.
- 18. A rechargeable energy storage cell which comprises a cell container made of a corrosion resistant material, at least one positive electrolytic plate and at least one negative electrolytic plate disposed in the container, an acidic electrolyte solution or gel filling the container and wetting at least a portion of the positive and negative plates thereby forming an electrolytic cell and a microporous separator disposed between the positive and negative plates, the separator comprising a porous polyolefin matrix containing from about 0.5 to about 30 dry weight percent porous particulate filler, wherein said particulate filler contains cured rubber and wherein said cured rubber has a porosity of at least about 40% void volume.
Specification