TH21445B - High molecular weight polyolefin microporous films and processes for the production of the same. - Google Patents

Abstract

Revealed a high molecular weight polyolefin microporous film, which is Benefits in preparing the filter medium Or battery separator Non-aqueous types and processes for film production Weighted polyolefin microporous film High molecules have fibrilles like leaf veins. Is the main component on each of which the fibrils having an uncrystallized form of a binding size not exceeding 1 μm and an internal viscosity [(formula)] 4dl / g or greater and, that should be used have (a) Channel volume 25% or more, (b) Gas permeability 1900 s / 100 cc or less, (c) Tensile strength 0.05 GPa or more, and (d) Gas impermeable temperature 140 ํ. The microporous film is produced by applying a high molecular weight dual-core polyolefin film to 60% or more crystallization through heat treatment. And if necessary, it is bonded to melt or dissolve the indeterminate portion of the film, and crystallize it on the fibrils.

Claims (8)

1. Microporous film which is composed of The fibrils arranged in a leafy pattern and indeterminate crystals on the Such a firebrick is the main component. Which crystals up to 1 micrometer in size, which fibrils and crystals thereof It consists of polyolefin that has a high molecular weight. The internal viscosity of [eta] is at least 4dl / g, as measured in Decalin at 135 ํ and a tensile strength of at least 0.05 Gpa. Polyolefins with high molecular weight With a viscosity of at least 4dl / g as measured in Decalins at 135 ํ the film will have: (a) at least 25% perforation (b) permeability. Of gas 1900 s / 100 cc or less; And (c) tensile strength of at least 0.05 GPa; And the film has a temperature of 140 ํ C or less gas permeability. 3. Microporous film. Which includes Polyolefins with high molecular weight With at least 4dl / g internal viscosity As measured in Decalin at 135 ํ the film has a tensile strength of at least 0.05 GPa and is obtained by a gas-impermeable polyolefin film without a plasticizer. And heat the solvent to make it microporous. 4. The microporous film according to claim 3, can be obtained by such heating. 5. Microporous film according to claim 3 or 4, where gas impermeable film is film obtained by blowing method. 6. Microporous film according to claim No. 3 to 5, where gas impermeable film is a dual-core film that is at least 60% crystalline. 7. Microporous film according to Claim 1 to 6. One, of which the polyolefin is polyethylene 8. Microporous film according to Clause 3 to 5, in which the gas impermeable film is included With polyolefins with high molecular weight In addition to polyethylene and is a biaxial film that is at least 40% crystalline. A high molecular weight polyolefin with a viscosity of at least 4dl / g in [eta], as measured in a decalin at 135 ํ. Giving of gas-impermeable polyolefin films without plasticizers and heating solvents To obtain the microporous film 1 0. Process according to claim 9, where such heating is followed by stretching 1. 1. Process according to claim 9 or 10, in which the gas impermeable film is a double-axial stretch film having at least 60% crystallinity. 2. Process according to claim 9 through 11, in which gas impermeable films are blown films 1. 3. Process according to one of Clause 9 to 12, where such heating is performed under compulsory condition 1. 4. Any process of claim 9 to 13, where such heating is done so that the indeterminate portion inside the polyolefin structure is melted or melted. Selectively And after that it will be crystallized into crystals. Which bundles on the rest of the firebrill, but and the firebrill Of a leaf-like structure 1 5. One of the procedures in accordance with Clause 9 to 11, where such heating is performed in a liquid in which the liquid has a higher boiling point than its heating temperature. Where the heating temperature is the temperature at Can melt Or selectively dissolve indeterminate parts of the polyolefin structure 1 6.A process according to one of Claim 9 to 15, where such heating is done so that the film can shrink no more than 10% of its original size. In both longitudinal and transverse directions 1 7. Process according to claim 15 or 16, where liquid is hydrocarbon liquid 1. 8. One of Claim 15 to 17 process, in which such heating is performed in the first liquid and followed by (i) the second immersion of the polyolefin film in the liquid. First liquid compatibility Whose boiling point is below the liquid boiling point first And which have less propensity to polyolefins; And (ii) drying