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Separators, batteries, systems, vehicles, and related methods

US11833763B2 · US · B2

Patent metadata
FieldValue
Publication numberUS-11833763-B2
Application numberUS-202218076068-A
CountryUS
Kind codeB2
Filing dateDec 6, 2022
Priority dateJan 29, 2016
Publication dateDec 5, 2023
Grant dateDec 5, 2023

How to read this patent

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  1. Title

    What the patent document calls the invention.

  2. Abstract

    A short plain-language summary of the technical disclosure.

  3. Assignees and inventors

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  4. Key dates

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  5. First independent claim

    The legal scope of protection — read this for what is actually claimed.

  6. CPC / IPC classifications

    Technology tags used to group this patent with similar filings.

  7. Citations and related patents

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Abstract

Official abstract text for this publication.

Improved battery separators, base films or membranes, batteries, cells, devices, systems, vehicles, and/or methods of making and/or using such separators, films or membranes, batteries, cells, devices, systems, vehicles, and/or methods of enhancing battery or cell charge rates, charge capacity, and/or discharge rates, and/or methods of improving batteries, systems including such batteries, vehicles including such batteries and/or systems, and/or the like; biaxially oriented porous membranes, composites including biaxially oriented porous membranes, biaxially oriented microporous membranes, biaxially oriented macroporous membranes, battery separators with improved charge capacities and the related methods and methods of manufacture, methods of use, and the like; flat sheet membranes, liquid retention media; dry process separators; biaxially stretched separators; dry process biaxially stretched separators having a thickness range between about 5 μm and 50 μm, preferably between about 10 μm and 25 μm, having improved strength, high porosity, and unexpectedly and/or surprisingly high charge capacity, such as, for example, high 10 C rate charge capacity; separators or membranes with high charge capacity and high porosity, excellent charge rate and/or charge capacity performance in a rechargeable and/or secondary lithium battery, such as a lithium ion battery, for high power and/or high energy applications, cells, devices, systems, and/or vehicles, and/or the like; single or multiple ply or layer separators, monolayer separators, trilayer separators, composite separators, laminated separators, co-extruded separators, coated separators, 1 C or higher separators, at least 1 C separators, batteries, cells, systems, devices, vehicles, and/or the like; improved microporous battery separators for secondary lithium batteries, improved microporous battery separators with enhanced or high charge (C) rates, discharge (C) rates, and/or enhanced or high charge capacities in or for secondary lithium batteries, and/or related methods of manufacture, use, and/or the like, and/or combinations thereof are disclosed or provided.

First claim

Opening claim text (preview).

We claim: 1. A filtration media comprising a microporous polymer film made by a biaxial dry-stretch process and having substantially round shaped pores, and a mean flow pore diameter from about 0.050 to about 0.50 microns, and a JIS Gurley of from about 25 to about 69 seconds, a thickness in the range of 10-25 microns, a porosity in the range of 60-80%, a transverse direction (TD) tensile strength in the range of 500-700 Kg/cm 2 , a machine direction (MD) tensile strength in the range of 700-1000 Kg/cm 2 , and a MD/TD tensile strength ratio in the range of 1.4-1.6. 2. The filtration media of claim 1 , wherein the microporous polymer film being made by a method of stretching including at least one of: biaxial stretching including a machine direction stretch and a transverse direction stretch with a simultaneous controlled machine direction relax, simultaneous or sequential machine direction stretch and transverse direction stretch, and machine direction stretch followed by transverse direction stretch with simultaneous machine direction relax. 3. The filtration media of claim 1 , wherein the polymer being at least one of a semi-crystalline polymer and a semi-crystalline polymer having a crystallinity in the range of 20-80%. 4. The filtration media of claim 1 , wherein said polymer being selected from the group consisting of polyolefins, fluorocarbons, polyamides, polyesters, polyacetals (or polyoxymethylenes), polysulfides, polyvinyl alcohols, co-polymers thereof, and combinations thereof. 5. The filtration media of claim 1 , an average pore size of said microporous polymer film being in the range of 0.09 to 0.99 microns. 6. The filtration media according to claim 1 wherein said transverse direction tensile strength being from 500 Kg/cm 2 to 600 Kg/cm 2 . 7. The filtration media of claim 1 wherein the microporous polymer film has a -multi-layered membrane structure. 8. The filtration media of claim 7 , wherein layers of the multi-layered structure are co-extruded. 9. A humidity control media, comprising: a microporous polymer film made by a biaxial dry-stretch process and having substantially round shaped pores, and a mean flow pore diameter from about 0.050 to about 0.50 microns, and a JIS Gurley of from about 25 to about 69 seconds, a thickness in the range of 10-25 microns, a porosity in the range of 60-80%, a transverse direction (TO) tensile strength in the range of 500-700 Kg/cm 2 , a machine direction (MD) tensile strength in the range of 700-1000 Kg/cm 2 , and a MD/TD tensile strength ratio in the range of 1.4-1.6. 10. A liquid retention media comprising: a microporous polymer film made by a biaxial dry-stretch process and having substantially round shaped pores, and a mean flow pore diameter from about 0.050 to about 0.50 microns, and a JIS Gurley of from about 25 to about 69 seconds, a thickness in the range of 10-25 microns, a porosity in the range of 60-80%; a transverse direction (TD) tensile strength in the range of 500-700 Kg/cm 2 , a machine direction (MD) tensile strength in the range of 700-1000 Kg/cm 2 , and a MD/TD tensile strength ratio in the range of 1.4-1.6.

Assignees

Inventors

Classifications

  • B29C65/00Primary

    Joining {or sealing} of preformed parts {, e.g. welding of plastics materials}; Apparatus therefor {(general aspects of processes or apparatus for joining preformed parts B29C66/00; using porous material formed by internal pressure generated therein for joining preformed parts B29C44/1228, B29C44/326)} · CPC title

  • B29C48/0018

    combined with shaping by orienting, stretching or shrinking, e.g. film blowing (B29C48/0017 takes precedence) · CPC title

  • B29C48/08

    flexible, e.g. films · CPC title

  • B29C48/10

    flexible, e.g. blown foils · CPC title

  • B29C48/18

    the components being layers · CPC title

Patent family

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View patent family 59387101

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Frequently asked questions

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What does patent US11833763B2 cover?
Improved battery separators, base films or membranes, batteries, cells, devices, systems, vehicles, and/or methods of making and/or using such separators, films or membranes, batteries, cells, devices, systems, vehicles, and/or methods of enhancing battery or cell charge rates, charge capacity, and/or discharge rates, and/or methods of improving batteries, systems including such batteries, vehi…
Who is the assignee on this patent?
Celgard Llc
What technology area does this patent fall under?
Primary CPC classification B29C65/00. Mapped technology areas include Operations & Transport.
When was this patent published?
Publication date Tue Dec 05 2023 00:00:00 GMT+0000 (Coordinated Universal Time) (B2). Legal status and post-grant events are not shown on this page.
What related patents are in patentsdb?
We list 8 related publications on this page (citations in our corpus or others sharing the same primary CPC).