A porous film that excels when used as a separator for a lithium-ion battery not only in separator followability to expansion and contraction of an electrode during charging and discharging, but also in charging and discharging cycle characteristics. The porous film, when the thickness of a circular
A porous film that excels when used as a separator for a lithium-ion battery not only in separator followability to expansion and contraction of an electrode during charging and discharging, but also in charging and discharging cycle characteristics. The porous film, when the thickness of a circular region having a diameter of 10 mm as an initial thickness t0 after a load of 50 g is applied onto the circular region for 10 seconds, as a thickness t after a load of 500 g is subsequently applied onto the same region for 10 seconds, and as a thickness t1 after 10 seconds has passed after the load applied onto the same region is subsequently changed to 50 g, the thickness change rate is 10% to 50%, and the thickness (t1) recovery rate is 80% to 99.9%.
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1. A porous film having through-pores, containing: a polyolefin-based resin is a polypropylene resin having a melt flow rate of 4 to 30 g/10 min; and70% to 99% by mass of the polypropylene resin having the melt flow rate of 4 to 30 g/10 min and 1% to 30% by mass of a propylene-ethylene copolymer hav
1. A porous film having through-pores, containing: a polyolefin-based resin is a polypropylene resin having a melt flow rate of 4 to 30 g/10 min; and70% to 99% by mass of the polypropylene resin having the melt flow rate of 4 to 30 g/10 min and 1% to 30% by mass of a propylene-ethylene copolymer having a melt flow rate of 0.1 to less than 4 g/10 min; or80% to 99% by mass of the polypropylene resin having the melt flow rate of 4 to 30 g/10 min and 1% to 20% by mass of an elastomer containing at least propylene or butane as a constituent unit, wherein,when thickness of a circular region having a diameter of 10 mm as an initial thickness t0 after a load of 50 g is applied onto the circular region for 10 seconds, as a thickness t after a load of 500 g is subsequently applied onto the same region for 10 seconds, and as the thickness t1 after 10 seconds has passed after the load applied onto the same region is subsequently changed to 50 g, a thickness change rate (%) of the film as expressed by Equation (1) is 10% to 50%, and a thickness (t1) recovery rate (%) of the film as expressed by Equation (2) is 80% to 99.9%: Thickness change rate (%)=[(t0−t)/t0]×100 (1), andThickness (t1) recovery rate (%)=(t1/t0)×100 (2). 2. The porous film according to claim 1, wherein, when thickness of a circular region having a diameter of 10 mm as an initial thickness t0 after a load of 50 g is applied onto the circular region for 10 seconds, and as a thickness t100 after repetition, by 100 cycles, of an operation of alternately applying a load of 500 g and a load of 50 g for 10 seconds each onto the same region, a change rate in a thickness (t100) recovery rate of the film as expressed by Equation (3) is 0.1% to 20%: Change rate (%) in thickness (t100) recovery rate=[(t1−t100)/t1]×100 (3)where Thickness (t100) recovery rate=(t100/t0)×100. 3. The porous film according to claim 1, wherein, when Gurley air permeability as G0 in an initial state in which no load is applied, and when the Gurley air permeability as G100 after repetition, by 100 cycles, of an operation of alternately applying a load of 0.64 g/mm2 and a load of 6.4 g/mm2 for 10 seconds each onto a predetermined region of the porous film, a change rate in the Gurley air permeability (G100) of the film as expressed by Equation (4) is 0% to 20%: Change rate in Gurley air permeability (G100)=(|G0−G100|/G0)×100 (4). 4. The porous film according to claim 1, wherein the porous film has a heat shrinkage factor of 0.1% to 3% in a width direction after being heated at 120° C. for one hour. 5. The porous film according to claim 1, wherein the polyolefin-based resin has a β-crystal forming ability of 30% to 100%. 6. The porous film according to claim 1, further containing an ethylene-α-olefin copolymer. 7. A separator for an electric storage device, the separator comprising a porous film having through-pores containing: a polyolefin-based resin is a polypropylene resin having a melt flow rate of 4 to 30 g/10 min; and70% to 99% by mass of the polypropylene resin having the melt flow rate of 4 to 30 g/10 min and 1% to 30% by mass of a propylene-ethylene copolymer having a melt flow rate of 0.1 to less than 4 g/10 min; or80% to 99% by mass of the polypropylene resin having the melt flow rate of 4 to 30 g/10 min and 1% to 20% by mass of an elastomer containing at least propylene or butane as a constituent unit, wherein,when a thickness of a circular region having a diameter of 10 mm as an initial thickness t0 after a load of 50 g is applied onto the circular region for 10 seconds, as a thickness t after a load of 500 g is subsequently applied onto the same region for 10 seconds, and as a thickness t1 after 10 seconds has passed after the load applied onto the same region is subsequently changed to 50 g, a thickness change rate (%) of the film as expressed by Equation (1) is 10% to 50%, and a thickness (t1) recovery rate (%) of the film as expressed by Equation (2) is 80% to 99.9%: Thickness change rate (%)=[(t0−t)/t0]×100 (1), andThickness (t1) recovery rate (%)−(t1/t0)×100 (2). 8. An electric storage device comprising a separator for an electric storage, the separator comprising a porous film having through-pores containing: a polyolefin-based resin is a polypropylene resin having a melt flow rate of 4 to 30 g/10 min; and70% to 99% by mass of the polypropylene resin having the melt flow rate of 4 to 30 g/10 min and 1% to 30% by mass of a propylene-ethylene copolymer having a melt flow rate of 0.1 to less than 4 g/10 min; or80% to 99% by mass of the polypropylene resin having the melt flow rate of 4 to 30 g/10 min and 1% to 20% by mass of an elastomer containing at least propylene or butane as a constituent unit, wherein,when the thickness of a circular region having a diameter of 10 mm as an initial thickness t0 after a load of 50 g is applied onto the circular region for 10 seconds, as a thickness t after a load of 500 g is subsequently applied onto the same region for 10 seconds, and as a thickness t1 after 10 seconds has passed after the load applied onto the same region is subsequently changed to 50 g, a thickness change rate (%) of the film as expressed by Equation (1) is 10% to 50%, and a thickness (t1) recovery rate (%) of the film as expressed by Equation (2) is 80% to 99.9%: Thickness change rate (%)=[(t0−t)/t0]×100 (1), andThickness (t1) recovery rate (%)=(t1/t0)×100 (2).
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이 특허에 인용된 특허 (2)
Kim, Sehyun; Fujii, Masaki, Polypropylene film having good drawability in a wide temperature range and film properties.
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