TH65112B - Co-extruded multi-layer battery separator - Google Patents

Abstract

------09/03/2018------(OCR) Page 1 of 1 page Summary of Invention The battery spacers are composed of co-extruded microscopic porous tissues. which has at least a layer the best two floors of extruded polymer and having a uniform thickness defined by a standard deviation <0.80 µm (µm) or the bond between the sheets as required. Peel-off strength > 60 g ------------ Revised Summary 12/07/2016 The battery barrier is composed of co-extruded microscopic porous tissue. which has at least a layer the best of the class of extruded polymers and having: uniform thickness defined by standard deviation <0.80 µm (µm) or binding between sheets as required. Peel-off strength >60 g ---------------------------------------- ---------------- The battery separator is composed of pressed co-compressed microscopic porous tissue with at least two layers. made of polymer, compressible and with: uniform thickness nominal by a standard deviation of <0.80 microns (micrometers) or the bonding between the stacked sheets as Determined with peel-off strength > 60 g:

Claims (1)

1. Claims (all) which will not appear on the advertisement page. :------09/03/2018------(OCR) Page 3 of 3 pages Better tribological performance of barrier surface. Improve the process of Ponimore. Improve tissue flame retardant Facilitates the nucleation of polymers, tissue layering and combinations of them 1 7. Battery stabilizer manufactured by method pursuant to one of Claims 12 to 16 1 8. Battery separator manufactured by method of Claim No. 15 1 9. METHOD OF ONE OF THE CLAIM 12 TO 18 Whereas the multilayered tissue One such microporous porous polyethylene is a thermoplastic polymer. 2 0. Method of one of the claims Rights 12 to 19 where the multislope tissue Such microscopic porous polymers containing one of such extruded polymers are excluded from groups that include: posiolepins, polyacetals, polyamides. , polyesters, polysulfides, polyvinyl alcohols, polyvinyl esters, polyvinylidine, copolymers of that 2 1. Methods for any of the claims of claims 12 to 20, provided that the multiple membranes Such microscopic porous slopes have inter-slope adhesion as determined by peel-off strength >60g 2 2. Method of one of Claims 12 to 21 by that there are many tissues Such microscopic porous layers containing one such extruded polymer will be polyethylene and the other will be polypropylene 2. holds one of the rights of claims 12 to 22, wherein the multilayer tissue Such a micro-porous layer with a third layer of extruded polymer. which will be of the same type? different than the aforementioned polymorphs of the other two layers mentioned above. Dry Expanding Tissue ------------ Revised 12/07/2016 1. Battery barrier consisting of: co-extruded microscopic porous tissue. which has a thickness in the range of 4-50 micrometers and has a layer like at least two floors Each layer is made of a different extruded polymer. and which has a uniform thickness that Defined with a standard deviation < 0.80 µm. polymer Thermoplastic 3. Battery barrier according to claim 1 or 2, where one such extruded polymer are selected from a group that includes: polyolefin, polyacetal, polyamide, polyester, polysulphide, polyvinyl alcohol, enough livinyl ester, polyvinylidine, copolymer of the above came before and its mixture. 4. Battery stopper pursuant to one of the preceding claims. where such floors one layer, which is additionally assembled with materials added to it; are selected from a group of materials modified to: lower the melting temperature of the polymer. Improve fusion integrity of tissues to improve Improve the strength of tissue toughness. improve the properties Eliminate tissue static for better Improve the wettability of the barrier surface, improve the tribological performance of the barrier surface. Improve the polymerization process. Improves tissue flammability Facilitates the nucleation of polymers, dyes, tissue layers. and any combination of these 6. Battery stopper as per one of the preceding claims. with additional fastening Between layers is determined by peel strength > 60 g 7. Battery spacer according to one of the preceding claims. where extruded polymer One of these will be polyethylene and the other will be polypropylene. where such extruded polymers are selected from a group which includes: polyolefin, polyacetal, polyamide, polyester, enough Lisulfide, polyvinyl alcohol, polyvinyl ester, polyvinylidine, copolymer of the above. came before and its ingredients. 9. Battery stopper as per one of the preceding claims. where such a polymer One is chosen from a group which includes: polymethylpentane, polyacetal, polyester, polyamide, polyvinyl alcohol, polyvinyl. Esters, polysulphides, polyvinylidine 1 0. Battery barrier according to one of the preceding claims. which consists of additional layers Third of extruded polymer which shall be of the same or different type than the said polymer of the other two classes mentioned above. where such tissues are Dry stretched tissue 1 2. Method for making microscopic multi-layered tissues in the range of 4-50 µm and at least two layers. Each layer is made of a different extruded polymer. and has a consistent thickness that set with a standard deviation < 0.80 µm, including the steps of Co-extrusion of a multilayer substrate No porosity via rate extrusion template Shear is as low as 4 s-1 and throughput is 18-100 lb/hr (8.2-45.4 kg/hr) per layer and process for non-porous multilayer substrates. to get which is a multilayered tissue that Micropore 1 3. Claim 12 method, where shear rate (Formula)8/sec 1 4. Method of Claims 12 or 13, wherein the process will be supplemented. Annealing of the annealed non-porous multilayer substrate and the extension of the annealed non-porous multilayer substrate 1 5. Methods of one of the preceding claims 12 to 14 by extrusion Together they include: Addition of material to at least one Class 1 6. Claim Method 15, provided that such material are selected from a group of materials modified to: lower the melting temperature of the polymer. Improve fusion integrity of tissues to improve Improve the strength of tissue toughness. improve the properties Eliminate tissue static for better Improve the wettability of the barrier surface. Improve the tribological performance of the barrier surface. Improve the polymerization process. Improve tissue flame retardant Facilitates the nucleation of polymers, staining the tissue layers. and any combination of these. 1 7. Battery spacers manufactured by methods pursuant to one of Claims 12 to 16 1 8. Battery dividers manufactured by means of Claims No. 15 1 9. Method of one of the preceding claims of claims 12 to 18, wherein the multilayer tissue One such microporous porous polymer is a thermoplastic polymer 2 0. Method of one of the preceding claims. Holds 12 to 19 where the tissue is multilayered. Such microporous microporous polymers containing one of such extruded polymers are selected from a group that includes: polyolefin, polyacetal, polyamide. , polyester, polysulfide, polyvinyl alcohol, polyvinyl ester, polyvinylidine, copolymer of the foregoing and their mixtures 2 1. Methods of one of the preceding claims of claims 12 to 20, where multiple tissues Such microscopic porous layers have inter-layer bonding defined by peel-off strength >60 g 2 2. Method of one of the preceding claims 12 to 21 where there are multiple tissues Such microscopic porous layers containing one such extruded polymer will be polyethylene and the other will be polypropylene 2. One of the preceding claims of claims 12 to 22 where multiple tissues Such a micro-porous layer with a third layer of extruded polymer. which will be of the same type? different than the aforementioned polymers of other layers 2 4. Method of one of the preceding claims of claims 12 to 23, where such tissue is dry stretched tissue ---------------------------------- 1. Battery Separator which includes microscopic membranes that are compressed together which has at least two layers made of compressible polymer and with a uniform thickness determined with a standard deviation of <0.80 µm 2. Battery separator of Claim 1, where the standard deviation is in the range of 4-125 µm thickness. 3. Battery separator. of the 3rd claim, where the said standard deviation is in the 4-50 µm thickness range. 4. Battery separator. of claim 1, wherein one layer of such polymer of such class is the same or different from such polymer of such other class; According to claim 1, the polymer which can be compressed one is a polymer Thermoplastic 6. Battery Separator According to claim 1, the polymer which can be compressed, one of a kind which is selected from a group which includes: polyolefin, polyacetal, polyamide, polyester, polysulphide, polyvinyl alcohol, poly vinyl ester, polyvinylidine, copolymer of the above came before and polymer mixture 7. Battery separator According to Claim 1, one such polymer is subsequently combined with another material added to the polymer. According to claim number 7, the said material which is selected from a group of Added material to: lower the melting temperature of the polymer. improve the integrity of better tissue fusion Improve the strength of tissue toughness, improve Improved tissue static elimination properties Improve the wettability of the surface of the separator. Improve the tribological performance of the separator surface. improve arrangement improve the polymer process Improve tissue flame retardant, facilitate polymer aggregation. staining layers of tissue and a combination of these 9. Battery Separator which includes microscopic spongy tissues that press together which has at least two layers of compressible polymer and bonded between the overlays as defined by peel-off strength > 60 g 1 0. Battery Separator According to claim No. 9, the polymer which can be compressed One type is a thermoplastic polymer 1. 1. Battery separator. of claim No. 9, provided that the polymer of such class, first class, of the same type or different from such polymers of such other classes 1 2. Battery separator According to claim 1, the polymer One of such compressible compacts is selected from a group which includes: polyolefin, polyacetal, polyamide, polyester polysulphide, p Elivinyl alcohol, polyvinyl ester, polyvinylidine, copolymer of the above. came before and polymer mixture 1 3. Battery separator According to claim 9, where the polymer which can be compressed such a kind, which is further assembled with other materials added to the polymer 1 4. Battery separator according to claim 13, provided that such material was chosen from the group of the material adapted to: lower the melting temperature of the polymer. improve integrity improved tissue fusion Improve the strength of tissue toughness. Improves tissue static elimination properties. improve the wettability of the surface of better splitter Improved tribodied performance of the surface of the separator, improved polymer processing. Improve tissue flame retardant Facilitate polymer aggregation staining layers of tissue and a combination of these 1 5. Battery Separator which includes multilayered microscopic spongy tissue which has at least two layers made of a polymer; It is obtained by choosing from a group which includes: polymethylpentane, polyacetal, polyester, polyamide, polyvinyl alcohol, polyvinyl alcohol. Nyl ester, polysulfide polyvinylidene 1 6. Battery separator According to claim No. 15, the said polymer of that class, first class, of the same type or different from such polymers of such other classes 1 7. Battery separator According to Claim 15, such tissue is a dry stretched tissue 1 8. Method of making microscopic porous multilayer tissue. This includes the steps of the total compaction of the reactants. Non-porous multi-layer molded via a pressure-rated compression template. Shear as low as 4 s-1 and throughput is 18-100 lb/hr (8.2-45.4 kg/hr) per layer and multilayer non-porous substrate processing. to get which is a multilayered tissue that Micro-porosity 1 9. Claim 18 method, where shear rate >8/s 2 0. Claim 18 method, where the process arrangement is further compounded. Melting of a non-porous multilayer substrate and extending the substrate. multilayer, non-porous, annealed