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    • 1. 发明申请
    • PREPREG, PREFORM, MOLDED PRODUCT, AND METHOD FOR MANUFACTURING PREPREG
    • PREPREG,PREFORM,MOLDED PRODUCT,AND METHOD FOR MANUFACTURING PREPREG
    • US20110143110A1
    • 2011-06-16
    • US12737619
    • 2009-07-24
    • Atsuki TsuchiyaMasato HonmaHideaki SasakiShoji Murai
    • Atsuki TsuchiyaMasato HonmaHideaki SasakiShoji Murai
    • B32B5/02B32B27/04B29C70/44
    • C08J5/04B29C70/08B29C70/50C08J3/212C08J5/24Y10T428/24942Y10T428/2495Y10T428/24994
    • This invention is A prepreg comprising a reinforcing fiber base material impregnated with a thermoplastic resin, wherein the reinforcing fiber base material comprises from 0 to 50% by mass of reinforcing fibers each having a fiber length of more than 10 mm, from 50 to 100% by mass of reinforcing fibers each having a fiber length of from 2 to 10 mm, and from 0 to 50% by mass of reinforcing fibers each having a fiber length of less than 2 mm, the average of two-dimensional orientation angles each formed by a reinforcing filament (a) and a reinforcing filament (b) intersecting the reinforcing filament (a) is from 10 to 80°, the thickness h0 (mm) at 23° C. is 0.03 to 1 mm, and the tensile strength σ is 0.01 MPa or more.The prepreg can be applied for thin molded products which have been considered unsuitable as a laminated molded product and can provide molded products that have a complicated shape and have isotropically high mechanical properties.
    • 本发明是一种预浸料,其包含浸渍有热塑性树脂的增强纤维基材,其中,所述增强纤维基材含有0〜50质量%的纤维长度大于10mm的增强纤维,50〜100质量% 的纤维长度为2〜10mm的增强纤维和0〜50质量%的纤维长度小于2mm的增强纤维,二维取向角的平均值由 与增强丝(a)交叉的增强丝(a)和增强丝(b)的厚度为0〜80°,23℃下的厚度h0(mm)为0.03〜1mm,拉伸强度& 为0.01MPa以上。 预浸料可以用于被认为不适合作为层叠成型品的薄型成型品,能够提供具有复杂形状并具有各向异性的高机械性能的成型品。
    • 2. 发明授权
    • Prepreg, preform, molded product, and method for manufacturing prepreg
    • 预浸料,预成型件,模制品和预浸料的制造方法
    • US08071205B2
    • 2011-12-06
    • US12737619
    • 2009-07-24
    • Atsuki TsuchiyaMasato HonmaHideaki SasakiShoji Murai
    • Atsuki TsuchiyaMasato HonmaHideaki SasakiShoji Murai
    • B32B27/04
    • C08J5/04B29C70/08B29C70/50C08J3/212C08J5/24Y10T428/24942Y10T428/2495Y10T428/24994
    • This invention is A prepreg comprising a reinforcing fiber base material impregnated with a thermoplastic resin, wherein the reinforcing fiber base material comprises from 0 to 50% by mass of reinforcing fibers each having a fiber length of more than 10 mm, from 50 to 100% by mass of reinforcing fibers each having a fiber length of from 2 to 10 mm, and from 0 to 50% by mass of reinforcing fibers each having a fiber length of less than 2 mm, the average of two-dimensional orientation angles each formed by a reinforcing filament (a) and a reinforcing filament (b) intersecting the reinforcing filament (a) is from 10 to 80°, the thickness h0 (mm) at 23° C. is 0.03 to 1 mm, and the tensile strength σ is 0.01 MPa or more.The prepreg can be applied for thin molded products which have been considered unsuitable as a laminated molded product and can provide molded products that have a complicated shape and have isotropically high mechanical properties.
    • 本发明是一种预浸料,其包含浸渍有热塑性树脂的增强纤维基材,其中,所述增强纤维基材含有0〜50质量%的纤维长度大于10mm的增强纤维,50〜100质量% 的纤维长度为2〜10mm的增强纤维和0〜50质量%的纤维长度小于2mm的增强纤维,二维取向角的平均值由 与增强丝(a)交叉的增强丝(a)和增强丝(b)的厚度为0〜80°,23℃下的厚度h0(mm)为0.03〜1mm,拉伸强度& 为0.01MPa以上。 预浸料可以用于被认为不适合作为层叠成型品的薄型成型品,能够提供具有复杂形状并具有各向异性的高机械性能的成型品。
    • 8. 发明申请
    • SOLID POLYMER FUEL BATTERY
    • 固体聚合物燃料电池
    • US20100203418A1
    • 2010-08-12
    • US12160985
    • 2006-12-21
    • Kenji KobayashiTetsuaki HirayamaHideaki Sasaki
    • Kenji KobayashiTetsuaki HirayamaHideaki Sasaki
    • H01M8/10
    • H01M8/04119H01M8/0271H01M8/0297H01M8/04291H01M8/1007H01M8/1009H01M8/1011H01M8/241H01M2300/0082Y02E60/523
    • A solid polymer fuel cell includes an electrode—electrolyte membrane coupling structure 3 configured to generate electric power through a chemical reaction between a fuel aqueous solution and an oxidant; a hydrophilic membrane 17 made of a hydrophilic material; and a repellent porous membrane 18 made of a repellent material. The repellent porous membrane 18 is arranged between the electrode—electrolyte membrane coupling structure 3 and the hydrophilic membrane 17. The fuel aqueous solution is supplied through the hydrophilic membrane 17 and the repellent porous membrane 18 to the electrode—electrolyte membrane coupling structure 3. At this time, the solid polymer fuel cell 10 can prevent the fuel from being excessively permeated, even though using the fuel aqueous solution of the high concentration. Also, the solid polymer fuel cell can prevent a lack of the water on the anode 6 and the increase in the crossover of the fuel to the cathode 7, and can suppress the property deterioration and can obtain the sufficient electric generation property.
    • 固体聚合物燃料电池包括:电极 - 电解质膜耦合结构3,其被配置为通过燃料水溶液和氧化剂之间的化学反应产生电力; 由亲水材料制成的亲水膜17; 以及由驱避材料制成的排斥性多孔膜18。 排斥性多孔膜18配置在电极 - 电解质膜结合体3与亲水膜17之间。燃料水溶液通过亲水膜17和排斥性多孔质膜18供给至电极 - 电解质膜结合体3。 这一次,即使使用高浓度的燃料水溶液,固体高分子型燃料电池10也能够防止燃料过度渗透。 此外,固体高分子型燃料电池能够防止阳极6上的水分的缺乏以及燃料与阴极7的交叉增加,能够抑制特性恶化,能够获得充分的发电性。
    • 9. 发明授权
    • Offset adjusting circuit for optical disc and offset adjusting method
    • 光盘偏移调整电路及偏移调整方法
    • US07277378B2
    • 2007-10-02
    • US10854360
    • 2004-05-26
    • Hideaki Sasaki
    • Hideaki Sasaki
    • G11B7/00
    • G11B20/10203G11B7/00375G11B7/005G11B7/0946G11B7/0948G11B20/18
    • An offset adjusting circuit for an optical disc comprises a plurality of offset-adjustment differential operational amplifiers, each of the amplifiers having an input terminal to which an output signal of an optical pickup is input and another input terminal to which a control voltage is applied, an adding circuit that adds output signals of the offset-adjustment differential operational amplifiers, an A/D converter that outputs a digital signal based on an output signal of the adding circuit, and a control voltage adjuster that varies the control voltage applied to the offset-adjustment differential operational amplifiers based on the digital signal so as to remove an offset.
    • 用于光盘的偏移调整电路包括多个偏移调整差分运算放大器,每个放大器具有输入端,光拾取器的输出信号被输入到该输入端,另一个输入端施加有控制电压, 添加偏移调整差分运算放大器的输出信号的加法电路,基于加法电路的输出信号输出数字信号的A / D转换器和控制电压调节器,该控制电压调节器改变施加到偏移的控制电压 - 基于数字信号的调整差分运算放大器,以便去除偏移。
    • 10. 发明申请
    • Disposable garment
    • 一次性服装
    • US20060224138A1
    • 2006-10-05
    • US11397052
    • 2006-04-03
    • Yukio HekiHideaki SasakiHiroyuki Ueno
    • Yukio HekiHideaki SasakiHiroyuki Ueno
    • A61F13/15
    • A61F13/49017A61F13/15203A61F13/49473A61F13/505A61F13/51403A61F13/51405A61F13/51456A61F13/51496A61F13/53A61F13/532A61F13/5323A61F13/533A61F13/539
    • A disposable garment used with an insert pad. The disposable garment has a longitudinal centerline, a transverse centerline, a crotch region, a front region and a back region. The disposable garment comprises an outer cover and an absorbent assembly joined inside the outer cover. The absorbent assembly has a longitudinal centerline, a transverse centerline, longitudinal sides and transverse ends. The absorbent assembly comprises a backsheet, an absorbent material disposed inside the backsheet and an elastic member extending in the longitudinal direction of the absorbent assembly to longitudinally elasticize a portion of the absorbent assembly. The absorbent assembly has a center crotch portion and a periphery portion, each portion having an absorbent capacity per unit area. The absorbent capacity per unit area of the center crotch portion is less than that of the periphery portion. The absorbent assembly is treated to increase stiffness.
    • 与插入垫一起使用的一次性衣服。 一次性衣服具有纵向中心线,横向中心线,裆部区域,前部区域和后部区域。 一次性衣服包括外盖和连接在外盖内的吸收组件。 吸收组件具有纵向中心线,横向中心线,纵向侧面和横向端部。 吸收组件包括底片,设置在底片内的吸收材料和沿吸收组件的纵向方向延伸的弹性构件,以纵向弹性化吸收组件的一部分。 吸收组件具有中心裆部和周边部分,每个部分具有每单位面积的吸收能力。 中心裆部的每单位面积的吸收能力小于周边部的吸收能力。 处理吸收组件以增加刚度。