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    • 3. 发明授权
    • Non-aqueous electrolyte secondary cell
    • 非水电解质二次电池
    • US5344724A
    • 1994-09-06
    • US42794
    • 1993-04-06
    • Yoshiyuki OzakiAkiyoshi MoritaJunichi YamauraZenichiro Ito
    • Yoshiyuki OzakiAkiyoshi MoritaJunichi YamauraZenichiro Ito
    • C01B31/02C01B31/04H01M2/02H01M4/131H01M4/133H01M4/1393H01M4/36H01M4/485H01M4/587H01M6/10H01M6/16H01M10/05H01M10/0585H01M10/0587H01M4/58H01M6/14
    • H01M4/587H01M10/0525H01M4/133H01M10/0585H01M10/0587H01M2/0217H01M4/131H01M4/525H01M6/10H01M6/164
    • A non-aqueous electrolyte secondary cell disclosed comprises a positive electrode sheet with a lithium-containing metal oxide as major positive electrode active material, a negative electrode sheet with graphitic particles as major negative electrode coating agent, a separator and a non-aqueous electrolyte, wherein the negative electrode sheet is produced by mixing the major graphitic particles, a binder and the like to produce a paste, coating the paste on both sides of a collector, pressing the coated collector, the coating layer having a porosity of 25% to 40%, and the graphitic particles have an average particle size of 3 .mu.m to 25 .mu.m which are produced by heat-treating a pitch in the molten state to produce carbonaceous mesophase particles, extracting the mesophase particles, carbonizing the mesophase particles and then heat-treating the carbonized particles through graphitization at 2500.degree. C. to 2900.degree. C. and which have a lattice plane spacing (d002) of 3.36 .ANG. to 3.39 .ANG., a crystal size in the direction of the C axis (Lc) of 200 .ANG. to 650 .ANG., as determined by X-ray diffraction analysis, and a ratio in intensity of the peak at 1360 cm.sup.-1 to that at 1580 cm.sup.-1 of 0.20 to 0.40 as determined by Argon laser-Raman spectrometry.
    • 所公开的非水电解质二次电池包括具有含锂金属氧化物作为主要正极活性物质的正极片,具有石墨颗粒作为主要负极涂覆剂的负极片,隔膜和非水电解质, 其中负极片是通过混合主要的石墨颗粒,粘合剂等制成糊料,在集电体的两面上涂覆糊料,压制涂覆的集电体,具有25%至40的孔隙率的涂层 %,并且石墨颗粒具有通过热处理熔融状态的沥青而产生的平均粒径为3μm至25μm,以产生碳质中间相颗粒,萃取中间相颗粒,碳化中间相颗粒,然后加热 通过在2500℃至2900℃的石墨化,使碳化颗粒达到3.36的格子间距(d002)至3。 39 ANGSTROM,通过X射线衍射分析确定的200AG至650A角度的C轴(Lc)方向的晶体尺寸,以及在1360cm -1处的峰强度与1580cm处的峰强度之比 通过氩激光 - 拉曼光谱测定法测定为0.20〜0.40。
    • 7. 发明申请
    • NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY
    • 非水电解质二次电池
    • US20130252056A1
    • 2013-09-26
    • US13989428
    • 2010-11-26
    • Tomoyoshi UekiNaoyuki WadaYoshiyuki Ozaki
    • Tomoyoshi UekiNaoyuki WadaYoshiyuki Ozaki
    • H01M2/16
    • The present invention provides an optimal non-aqueous electrolyte secondary battery having high durability against high rate charging and discharging and excellent safety. The non-aqueous electrolyte secondary battery 100 according to the present invention comprises a positive electrode 10, a negative electrode 20 and a separator 30 which is interposed between the positive electrode 10 and the negative electrode 20. The separator 30 has a two-layer structure which is composed of a porous polyethylene layer 34 mainly composed of polyethylene, and a porous polymer layer 32 mainly composed of a polymer having higher oxidation resistance than that of the polyethylene, and an inorganic filler layer 40 including an inorganic filler and a binder is formed on the surface of the polyethylene layer 34 on which the porous polymer layer 32 is not formed.
    • 本发明提供了一种对高速充放电具有高耐久性和优异安全性的最佳非水电解质二次电池。 根据本发明的非水电解质二次电池100包括正极10,负极20和介于正极10和负极20之间的隔板30.隔板30具有两层结构 其由主要由聚乙烯形成的多孔聚乙烯层34和主要由聚乙烯的抗氧化性高的聚合物构成的多孔聚合物层32形成,并且形成包含无机填料和粘合剂的无机填料层40 在其上未形成多孔聚合物层32的聚乙烯层34的表面上。
    • 10. 发明授权
    • Method of manufacturing pleated product and fabric for pleated product used for the method
    • 制造打褶产品的方法和用于该方法的打褶产品的织物
    • US07669741B2
    • 2010-03-02
    • US10552580
    • 2004-04-07
    • Yoshiyuki Ozaki
    • Yoshiyuki Ozaki
    • D05B35/08
    • D03D15/00D03D11/00D06J1/12D10B2201/02D10B2201/24D10B2211/02D10B2321/10D10B2331/04D10B2401/062D10B2501/00Y10T428/24033Y10T428/24074
    • A method of manufacturing a pleated product capable of partially pleating a fabric so that boundaries between pleat portions and non-pleat portions can be conspicuous and a fabric for the pleated product used for the method. In this method, a part of the fabric for the pleated product in which one of warp and weft is formed of easy-to-pleat yarn and the other formed of hard-to-pleat yarn is folded along a folding line tilted relative to the warp and the weft, the fabric is pleated up to the folding line in the passing direction of the warp or the weft, and the fabric is unfolded and washed. Effective pleats are formed only in the passing direction of the easy-to-pleat yarn on a plane on one side of the folded portion and not formed in the passing direction of the hard-to-pleat yarn on a plane on the other side of the folded portion. The pleats in the passing direction of the hard-to-pleat yarn are eliminated by a washing step to form a non-pleat portion, and the pleats formed on the passing direction of the easy-to-pleat yarn form a pleat portion in which the pleat lines are firmly shaped up to the folding line.
    • 制造能够部分打褶织物的褶皱制品的方法,使得褶部和非褶部之间的边界可以是显眼的,并且用于该方法的褶皱产品的织物。 在这种方法中,一部分褶皱产品的织物,其中经纱和纬纱之一由容易褶皱的纱线形成,而另一个由难皱的纱线形成,并沿着相对于 经纱和纬纱,织物在经纱或纬纱的通过方向上折叠到折叠线,并且织物被展开和洗涤。 有效的褶皱仅在易折褶纱的通过方向上形成在折叠部分的一侧上的平面上,并且不形成在难折褶纱的通过方向上,在另一侧的平面上 折叠部分。 通过洗涤步骤消除难皱纱的通过方向上的褶皱,形成非褶皱部分,并且在容易褶皱纱线的通过方向上形成的褶皱形成褶皱部分,其中 褶皱线牢固地形成直到折叠线。