摘要:
A nonaqueous electrolyte secondary battery includes: a positive electrode 4 including a positive electrode current collector and a positive electrode material mixture layer containing a positive electrode active material and a binder and provided on the positive electrode current collector; a negative electrode 5; a porous insulating layer 6 interposed between the positive electrode 4 and the negative electrode 5; and a nonaqueous electrolyte. The positive electrode 4 has a tensile extension percentage of 3.0% or more. The binder is made of copolymer containing vinylidene fluoride and hexafluoropropylene.
摘要:
A nonaqueous electrolyte secondary battery includes: a positive electrode 4 including a positive electrode current collector and a positive electrode material mixture layer containing a positive electrode active material and a binder and provided on the positive electrode current collector; a negative electrode 5; a porous insulating layer 6 interposed between the positive electrode 4 and the negative electrode 5; and a nonaqueous electrolyte. The positive electrode 4 has a tensile extension percentage of 3.0% or more. The binder is made of polyvinylidene fluoride. The positive electrode current collector has a softening temperature lower than a crystalline melting point of the binder.
摘要:
A nonaqueous electrolyte secondary battery includes an electrode group (8) including a positive electrode (4) in which a positive electrode material mixture layer (4B) is provided on a positive electrode current collector (4A), a negative electrode (5) in which a negative electrode material mixture layer (5B) is provided on a negative electrode current collector (5A), and a porous insulating film (6). The positive electrode (4) and the negative electrode (5) are wound with the porous insulating layer (6) interposed. The positive electrode material mixture layer (4B) is provided on at least one of opposite surfaces of the positive electrode current collector (4A) located inside in a radial direction of the electrode group (8). The positive electrode material mixture layer (4B) has a porosity of 20% or lower. Where η is a thickness of the positive electrode material mixture layer (4B) provided on the surface located inside in the radial direction of the electrode group (8) of the surfaces of the positive electrode current collector (4A), ρ is a minimum radius of curvature of the positive electrode (4), and ε is a tensile extension in a winding direction of the positive electrode (4), ε≧η/ρ is satisfied.
摘要:
Disclosed is an electrode used in a wound electrode assembly, the electrode including: a current collector; a first material mixture layer including a first active material, which is formed on one surface of the current collector; and a second material mixture layer including a second active material, which is formed on the other surface of the current collector. When an electrode assembly is assembled, the first material mixture layer is wound in a manner such that it is positioned on the outer side of the second material mixture layer. In a part corresponding to a predetermined region of a cross section of said electrode assembly perpendicular to the winding axis thereof, the radius of curvature of the predetermined region being 3.0×10−3 m or less, the capacity per unit volume of the first material mixture layer is higher than the capacity per unit volume of the second material mixture layer.
摘要:
A non-aqueous electrolyte battery has a positive electrode, a negative electrode, and a non-aqueous electrolyte. The positive electrode has a high-capacity positive electrode portion with a plate area per capacity of smaller than 200 cm2/Ah, and a high-power positive electrode portion with a plate area per capacity of 200 cm2/Ah or larger. The non-aqueous electrolyte battery is advantageous in providing a battery, with use of a single kind of non-aqueous electrolyte battery, which simultaneously satisfies the requirements on high-capacity characteristics capable of performing a long-term continuous discharge, and on high-power characteristics capable of performing a pulse discharge at a large current, without using a hybrid power supply unit which has multiple kinds of batteries and requires a complex control system.
摘要:
A nonaqueous electrolyte secondary battery includes an electrode group (8) formed by winding a positive electrode (4) and a negative electrode (5) with a porous insulating layer (6) interposed therebetween. The positive electrode (4) includes a positive electrode material mixture layer (4B) and a positive electrode current collector (4A). The positive electrode material mixture layer (4B) has a porosity of 20% or lower. ε≧η/ρ is satisfied, where η is the thickness of the positive electrode material mixture layer (4B) on a surface located inside in the radial direction of the electrode group (8) of surfaces of the positive electrode current collector (4A), ρ is the minimum radius of curvature of the positive electrode (4), and ε is a tensile extension in the winding direction of the positive electrode (4). The frequency distribution curve for the particle sizes of a positive electrode active material has two or more peaks.
摘要:
A nonaqueous electrolyte secondary battery includes: a positive electrode 4 including a positive electrode current collector and a positive electrode mixture layer containing a positive electrode active material and a binder, the positive electrode mixture layer being provided on the positive electrode current collector; a negative electrode 5; a porous insulating layer 6 interposed between the positive electrode 4 and the negative electrode 5; and a nonaqueous electrolyte. The positive electrode 4 has a tensile extension percentage of equal to or higher than 3.0%. The positive electrode current collector is made of aluminium containing iron. In this manner, the tensile extension percentage of the positive electrode is increased without a decrease in capacity of the nonaqueous electrolyte secondary battery. Accordingly, even when the nonaqueous electrolyte secondary battery is destroyed by crush, occurrence of short-circuit in the nonaqueous electrolyte secondary battery can be suppressed.
摘要:
An alkaline storage battery including a strip-shaped porous metal substrate and a material mixture filled into the substrate. The substrate has an unfilled portion where the material mixture is not filled along at least one of two longitudinal sides of the substrate. The substrate has a weight per unit area of 150 to 350 g/m2. The material mixture contains an active material and an elastic polymer.
摘要翻译:一种碱性蓄电池,包括条状多孔金属基底和填充到基底中的材料混合物。 衬底具有未填充部分,其中材料混合物不沿着衬底的两个纵向侧面中的至少一个填充。 基板的单位面积重量为150〜350g / m 2。 该材料混合物含有活性材料和弹性聚合物。
摘要:
A non-aqueous electrolyte rechargeable battery pack is provided, which includes a measuring unit for measuring a battery voltage and a battery temperature and a control unit for controlling charge and discharge based on a measuring result of the measuring unit. A plurality of cylindrical non-aqueous electrolyte rechargeable batteries each having positive and negative terminals at a cover and a bottom are accommodated in a battery housing in such a manner that side faces of adjacent non-aqueous electrolyte rechargeable batteries face each other. All the cylindrical non-aqueous electrolyte rechargeable batteries are electrically connected to one another. B/A is set to be in a range between 0.02 and 0.2 where A is a diameter of each cylindrical non-aqueous electrolyte rechargeable battery and B is a distance between the side faces of the adjacent batteries. Due to this, it is possible to realize the non-aqueous electrolyte rechargeable battery pack having a structure suitable for outdoor use as a power source for an electric tool.
摘要翻译:提供了一种非水电解质可充电电池组,其包括用于测量电池电压的测量单元和电池温度,以及用于基于测量单元的测量结果控制充放电的控制单元。 在盖和底部具有正极和负极端子的多个圆柱形非水电解质可再充电电池以相邻的非水电解质可再充电电池的侧面彼此面对的方式容纳在电池壳体中。 所有圆柱形非水电解质可再充电电池彼此电连接。 B / A设定在0.02和0.2之间的范围内,其中A是每个圆柱形非水电解质可再充电电池的直径,B是相邻电池的侧面之间的距离。 由此,可以实现具有适合室外结构的非水电解质二次电池组作为电动工具的电源。
摘要:
A base for an electrode plate that has an excellent ability to retain an active material and can be manufactured at a low cost, a method for manufacturing the same, and an alkaline storage battery using the same are provided. The method includes (i) forming a slurry containing water, a powder containing nickel, and a hollow particle formed of an organic compound, (ii) applying the slurry to a support made of metal, thereby forming a sheet, and (iii) burning the sheet, thereby forming a porous layer joined to the support by a metallic bond.