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    • 1. 发明授权
    • Acrylic emulsions containing tackifiers, processes for preparing them, and adhesive tape containing acrylic emulsions containing tackifiers
    • 含有增粘剂的丙烯酸乳液,其制备方法和含有增粘剂的丙烯酸乳液的胶带
    • US06288148B1
    • 2001-09-11
    • US09341866
    • 1999-07-30
    • Hiroshi SamukawaKazuki Shibata
    • Hiroshi SamukawaKazuki Shibata
    • C08F244
    • C09J151/003C08F265/06C09J7/385Y10S526/931Y10T428/28Y10T428/2891C08F2/22
    • Acrylic emulsions are obtained by carrying out a polymerization reaction of a first acrylic monomer dispersion, adding a second acrylic monomer dispersion, and carrying out a further polymerization reaction wherein the first acrylic monomer dispersion contains acrylic monomer and tackifier in a first proportion to acrylic monomer contained in the first acrylic monomer dispersion and wherein the second acrylic monomer dispersion contains acrylic monomer and tackifier in a second proportion to acrylic monomer contained in the second acrylic monomer dispersion, and wherein the proportion of tackifier in the first acrylic monomer dispersion is lower than the proportion of tackifier in the second acrylic monomer dispersion. A high molecular weight acrylic polymer is obtained when the first acrylic monomer dispersion is polymerization reacted. The second acrylic monomer dispersion is added to the first acrylic monomer dispersion after the first acrylic monomer dispersion is polymerization reacted. The tackifier is added to the acrylic polymer when the first acrylic monomer dispersion is further polymerized with the second acrylic monomer dispersion. Thus, holding power and adhesion are improved at the same time.
    • 丙烯酸乳液通过进行第一丙烯酸类单体分散体的聚合反应,加入第二丙烯酸类单体分散体和进行进一步的聚合反应而获得,其中第一丙烯酸类单体分散体含有丙烯酸类单体和增粘剂以与丙烯酸单体成比例的第一比例 在所述第一丙烯酸系单体分散体中,所述第二丙烯酸系单体分散体含有与所述第二丙烯酸类单体分散体中所含的丙烯酸类单体成比例的丙烯酸系单体和增粘剂,并且其中,所述第一丙烯酸系单体分散体中的增粘剂的比例低于所述第 的第二丙烯酸类单体分散体中的增粘剂。 当第一丙烯酸单体分散体聚合反应时,获得高分子量丙烯酸聚合物。 在第一丙烯酸类单体分散体聚合反应后,将第二丙烯酸类单体分散体加入到第一丙烯酸类单体分散体中。 当第一丙烯酸类单体分散体与第二丙烯酸类单体分散体进一步聚合时,将增粘剂加入到丙烯酸类聚合物中。 因此,同时提高了保持力和附着力。
    • 3. 发明申请
    • Liquid-absorbeng composition, liquid-absorbeng sheet, and nonaqueous electrolyte battery pack
    • 吸液组合物,吸液片和非水电解质电池组
    • US20060022634A1
    • 2006-02-02
    • US10519357
    • 2003-12-19
    • Mamiko NomuraHiroshi Samukawa
    • Mamiko NomuraHiroshi Samukawa
    • H02J7/00
    • H01M10/052C09D175/16H01M2/022H01M2/1094H01M10/4235H01M2300/0085Y10T29/49115
    • A liquid-absorbent composition, which has a liquid-absorbent crosslinked resin that exhibits excellent absorption of the nonaqueous electrolyte of nonaqueous electrolyte secondary cells that constitute a nonaqueous electrolyte battery pack (and particularly a lithium ion nonaqueous electrolyte rechargeable battery pack), contains a powder of a liquid-absorbent crosslinked resin produced by crosslinking a methyl vinyl ether/maleic anhydride copolymer with a polyfunctional isocyanate compound, and a binder resin. Also, a liquid-absorbent sheet for a nonaqueous electrolyte battery pack contains supporting substrate and formed on one side of a supporting substrate a liquid-absorbent crosslinked resin layer, produced by crosslinking a methyl vinyl ether/maleic anhydride copolymer with a polyfunctional isocyanate compound. The nonaqueous electrolyte battery pack contains a battery case and disposed within the battery pack a nonaqueous electrolyte battery cell, a wiring circuit board, and an electrolyte absorption member formed from the liquid-absorbent sheet for absorbing electrolyte in the event that electrolyte leaks from the nonaqueous electrolyte battery cell.
    • 构成非水电解质电池组(特别是锂离子非水电解质可充电电池组)的非水电解质二次电池非水电解液吸收性优异的吸液性交联树脂的吸液性组合物含有粉末 通过使甲基乙烯基醚/马来酸酐共聚物与多官能异氰酸酯化合物交联而制造的吸液性交联树脂和粘合剂树脂。 另外,非水电解质电池组用吸液片包含支撑基板,在支撑基板的一侧形成吸液性交联树脂层,其通过使甲基乙烯基醚/马来酸酐共聚物与多官能异氰酸酯化合物交联而制造。 非水电解质电池组包含电池壳体,并且在电池组中设置非水电解质电池单元,布线电路板和电解质吸收构件,所述非水电解质电池单元,布线电路板和电解质吸收构件由吸液片形成,用于在电解液从非水溶液泄漏的情况下吸收电解质 电解液电池。
    • 5. 发明授权
    • Light emitting element module and method for sealing light emitting element
    • 发光元件模块及密封发光元件的方法
    • US08072139B2
    • 2011-12-06
    • US11996724
    • 2006-03-09
    • Kouki HatsudaHiroshi Samukawa
    • Kouki HatsudaHiroshi Samukawa
    • H05B33/00H05B33/04H05B33/10
    • H01L33/54B29C33/0022B29C43/18B29C43/28B29C43/46B29C2043/3623B41J2/45B41J2/451H01L33/52H01L33/60H01L2224/45144H01L2224/48091H01L2933/005H01L2924/00014H01L2924/00
    • Disclosed is a method for sealing a light-emitting device wherein formation of air bubbles in a light-emitting device module can be prevented by performing no gelation after fitting of a cover member. This method also enables to seal a light-emitting device by using a gel sealing material composed of a gel precursor which uses a solvent. Also disclosed is a light-emitting module formed by such a sealing method. In this method for sealing a light-emitting device, gelation of the gel precursor of a gel sealing material is performed before placing the precursor on the light-emitting device, and thus no gelation is necessary after fitting of a cover member. Consequently, a gel precursor having high viscosity that is difficult to be used in an injection method can be used in this method. Furthermore, a substance which requires use of a solvent can be used as a gel precursor of a gel sealing material. A light-emitting device module with high luminance wherein no air bubbles are included can be obtained by this method.
    • 公开了一种密封发光器件的方法,其中可以通过在安装盖构件之后不进行凝胶化来防止在发光器件模块中形成气泡。 该方法还能够通过使用由使用溶剂的凝胶前体组成的凝胶密封材料来密封发光器件。 还公开了通过这种密封方法形成的发光模块。 在这种密封发光装置的方法中,在将前体放置在发光装置上之前,进行凝胶密封材料的凝胶前体的凝胶化,因此在安装盖部件之后不需要凝胶化。 因此,在该方法中可以使用难以在注射方法中使用的具有高粘度的凝胶前体。 此外,需要使用溶剂的物质可以用作凝胶密封材料的凝胶前体。 通过该方法可以获得不具有气泡的高亮度的发光装置模块。
    • 6. 发明授权
    • Curable resin composition
    • 可固化树脂组合物
    • US07868109B2
    • 2011-01-11
    • US12084707
    • 2007-03-14
    • Hiroshi SamukawaKouki Hatsuda
    • Hiroshi SamukawaKouki Hatsuda
    • C08K5/3417C08L33/06C08L39/04C08F20/10
    • C09D133/08C08F222/1006C08K5/3417C09D133/14H01L33/56C08L2666/28
    • A curable resin composition is provided which has an appropriate viscosity suitable for encapsulating a light-emitting device. The cured product of the curable resin composition has a refractive index equal to or larger than that of epoxy resins, is excellent in heat resistance and light resistance, and has thermal stress relaxation properties. The curable resin composition contains a high refractive index acrylic-based monomer having a refractive index of 1.52 or more and a non-polymerizable carbazole, and further contains a polymerizable carbazole in accordance with need. An acrylate or methacrylate having a fluorene skeleton, a bisphenol-A skeleton, a biphenyl skeleton, a naphthalene skeleton, or an anthracene skeleton is used as the high refractive index acrylic-based monomer.
    • 提供一种具有适合于封装发光装置的适当粘度的可固化树脂组合物。 固化性树脂组合物的固化物的折射率等于或大于环氧树脂的折射率,耐热性和耐光性优异,并且具有热应力松弛性。 固化性树脂组合物含有折射率为1.52以上的高折射率丙烯酸类单体和不可聚合咔唑,并且根据需要还含有可聚合咔唑。 使用具有芴骨架的丙烯酸酯或甲基丙烯酸酯,双酚A骨架,联苯骨架,萘骨架或蒽骨架作为高折射率丙烯酸类单体。
    • 10. 发明申请
    • LIGHT EMITTING ELEMENT MODULE AND METHOD FOR SEALING LIGHT EMITTING ELEMENT
    • 用于密封发光元件的发光元件模块和方法
    • US20100140654A1
    • 2010-06-10
    • US11996724
    • 2006-03-09
    • Kouki HatsudaHiroshi Samukawa
    • Kouki HatsudaHiroshi Samukawa
    • H01L33/00B29C45/14
    • H01L33/54B29C33/0022B29C43/18B29C43/28B29C43/46B29C2043/3623B41J2/45B41J2/451H01L33/52H01L33/60H01L2224/45144H01L2224/48091H01L2933/005H01L2924/00014H01L2924/00
    • Disclosed is a method for sealing a light-emitting device wherein formation of air bubbles in a light-emitting device module can be prevented by performing no gelation after fitting of a cover member. This method also enables to seal a light-emitting device by using a gel sealing material composed of a gel precursor which uses a solvent. Also disclosed is a light-emitting module formed by such a sealing method. In this method for sealing a light-emitting device, gelation of the gel precursor of a gel sealing material is performed before placing the precursor on the light-emitting device, and thus no gelation is necessary after fitting of a cover member. Consequently, a gel precursor having high viscosity that is difficult to be used in an injection method can be used in this method. Furthermore, a substance which requires use of a solvent can be used as a gel precursor of a gel sealing material. A light-emitting device module with high luminance wherein no air bubbles are included can be obtained by this method.
    • 公开了一种密封发光器件的方法,其中可以通过在安装盖构件之后不进行凝胶化来防止在发光器件模块中形成气泡。 该方法还能够通过使用由使用溶剂的凝胶前体组成的凝胶密封材料来密封发光器件。 还公开了通过这种密封方法形成的发光模块。 在这种密封发光装置的方法中,在将前体放置在发光装置上之前,进行凝胶密封材料的凝胶前体的凝胶化,因此在安装盖部件之后不需要凝胶化。 因此,在该方法中可以使用难以在注射方法中使用的具有高粘度的凝胶前体。 此外,需要使用溶剂的物质可以用作凝胶密封材料的凝胶前体。 通过该方法可以获得不具有气泡的高亮度的发光装置模块。