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    Plastisol composition
    1.
    发明授权
    Plastisol composition 失效
    增塑剂组合物

    公开(公告)号:US5441994A

    公开(公告)日:1995-08-15

    申请号:US242843

    申请日:1994-05-16

    Applicant: Toshinori Moriga Shunji Kojima Seishichi Kobayashi

    Inventor: Toshinori Moriga Shunji Kojima Seishichi Kobayashi

    IPC: C08F8/00 C08K5/12 C08K5/11 C08K5/521

    CPC classification number: C08F8/00 C08F2810/20 Y10S525/902

    Abstract: An acrylic resin plastisol composition that forms coatings or molded articles having excellent anticreep property. The plastisol composition maintains excellent fluidity required for the coating and molding even after preserved for extended periods of time and further exhibits excellent gelation property upon heating, enabling the obtained coating or the molded article to exhibit excellent resistance against the relaxation of stress. The plastisol composition comprises a dispersing medium composed chiefly of a plasticizer and acrylic resin grains dispersed in said dispersing medium, wherein said acrylic resin grains have a functional group selected from the group consisting of carboxyl group, hydroxyl group, epoxy group, methylol group and etherified methylol group, and said dispersing medium contains a crosslinking agent that has reactivity to said functional group in a state of being at least partly solubilized in said dispersing medium.

    Abstract translation: 一种形成具有优异抗蚀性能的涂料或模制品的丙烯酸树脂增塑溶胶组合物。 即使在长时间保存之后,增塑溶胶组合物也保持涂布和成型所需的优异的流动性,并且在加热时进一步显示出优异的凝胶化性能,使得所得到的涂层或模塑制品具有优异的抗应力松弛性。 增塑溶胶组合物包含主要由增塑剂组成的分散介质和分散在所述分散介质中的丙烯酸树脂颗粒,其中所述丙烯酸树脂颗粒具有选自羧基,羟基,环氧基,羟甲基和醚化的官能团 羟甲基,并且所述分散介质含有在至少部分溶解于所述分散介质中的状态下与所述官能团具有反应性的交联剂。

    Aqueous paint
    2.
    发明授权
    Aqueous paint 失效
    水性油漆

    公开(公告)号:US5763507A

    公开(公告)日:1998-06-09

    申请号:US770003

    申请日:1996-12-19

    Applicant: Toshinori Moriga Shunji Kojima Seishichi Kobayashi

    Inventor: Toshinori Moriga Shunji Kojima Seishichi Kobayashi

    IPC: C08G59/14 C08F283/10 C08G59/17 C08G59/62 C08L63/00 C09D4/06 C09D5/00 C09D151/08 C09D163/00 C09D163/10 C08K3/20 C08L63/02

    CPC classification number: C09D151/08 C08F283/10

    Abstract: An aqueous paint which exhibits improved dispersion property in the water and dispersion stability, has a low viscosity enabling the painting operation to be efficiently carried out, and cures at low temperatures within short periods of time to form a coating which after cured exhibits high degree of workability, high corrosion resistance, and elutes out little into the content. The aqueous paint comprises an epoxy acrylate resin prepared by modifying, with a (meth)acrylic monomer, a copolymerized epoxy resin having a number average molecular weight of 8,000 to 15,000 and containing, as phenolic components, a bisphenol-A component and a bisphenol-F component at a molar ratio of from 5:5 to 8:2, and a curing agent of a thermosetting resin having a methylol group.

    Abstract translation: 表现出改善的水分散性和分散稳定性的水性涂料具有低粘度,能够有效地进行涂装操作,并且在短时间内在低温下固化形成涂层,其在固化后显示高度的 可加工性,耐腐蚀性高,并且内容很少洗脱。 水性涂​​料包括通过用(甲基)丙烯酸单体改性数均分子量为8,000至15,000的共聚环氧树脂制备的环氧丙烯酸酯树脂,并且作为酚类组分含有双酚A组分和双酚A组分, F组分,摩尔比为5:5至8:2的固化剂和具有羟甲基的热固性树脂的固化剂。

    Acrylic plastisol adhesion structure
    3.
    发明授权
    Acrylic plastisol adhesion structure 失效
    丙烯酸增塑溶胶粘结结构

    公开(公告)号:US5677053A

    公开(公告)日:1997-10-14

    申请号:US671677

    申请日:1996-06-28

    Applicant: Toshinori Moriga Shunji Kojima Seishichi Kobayashi Yusuke Obu Shinji Odajima

    Inventor: Toshinori Moriga Shunji Kojima Seishichi Kobayashi Yusuke Obu Shinji Odajima

    IPC: B32B7/12 B05D7/00 B32B15/082 B32B15/092 B32B27/30 C08L33/04 C08L33/06 C09D133/06 C09J163/00 C09J163/02 B32B15/08 B32B27/08 B32B27/22

    CPC classification number: B05D7/54 C09D133/068 Y10T428/2817 Y10T428/31522 Y10T428/31529 Y10T428/31855

    Abstract: An adhesion structure in which the gel of an acrylic plastisol is strongly adhered to the metallic base material, featuring excellent resistance against corrosion and exhibiting small whitening tendency even under severe conditions for treatment with hot water such as retort processing, and a method of producing the same structure. The acrylic plastisol is applied onto the metallic base material or onto the metallic base material having an organic coating provided with a layer of a thermosetting resin which contains a bisphenol-type epoxy resin and a phenolic resin at a weight ratio of from 99:1 to 85:15, and is gelled by heating and is, at the same time, adhered to the base material via the thermosetting resin layer. The acrylic plastisol is gelled and is strongly adhered onto the thermosetting resin layer within short periods of time. The obtained adhesion structure exhibits excellent resistance against peeling, corrosion and retorting.

    Abstract translation: 丙烯酸增塑溶胶的凝胶强烈地粘附到金属基材上的粘合结构,即使在用于用诸如蒸馏处理的热水处理的苛刻条件下也具有优异的耐腐蚀性和显示出小的白化趋势的粘合结构,以及制备 相同的结构。 将丙烯酸增塑溶胶施加到金属基材或金属基材上,所述金属基材具有有机涂层,该有机涂层具有含有双酚型环氧树脂和酚醛树脂的热固性树脂层,重量比为99:1至 85:15,通过加热凝胶化,同时通过热固性树脂层附着在基材上。 丙烯酸增塑溶胶凝胶化,并在短时间内牢固地附着在热固性树脂层上。 获得的粘合结构表现出优异的抗剥离,腐蚀和蒸煮的性能。

    Method for lining with powder
    4.
    发明授权
    Method for lining with powder 失效
    粉末内衬方法

    公开(公告)号:US5776273A

    公开(公告)日:1998-07-07

    申请号:US543595

    申请日:1995-10-16

    Applicant: Norio Takeuchi Masaki Morotomi Toshinori Moriga Ken Takenouchi Seishichi Kobayashi

    Inventor: Norio Takeuchi Masaki Morotomi Toshinori Moriga Ken Takenouchi Seishichi Kobayashi

    IPC: B05D1/30 B05D3/00 B05D7/14 B05D7/24 B29C31/04 B27N3/00 B32B17/00

    CPC classification number: B05D1/30

    Abstract: An object, such as a container cover, is lined on a predefined area of the object by depositing powder on the predefined area. The lining material is formed into a non-spherical powder having a resting angle of 40 degrees or greater. The powder is deposited by fluidizing the powder in a feeder using vibration and conveying the powder through a nozzle to the predefined area. The powder layer deposited on the object is pressed with a molding element to form a lining layer having the predefined shape. The lining thus formed has a predefined thickness distribution and shape with good tightening and sealing properties and corrosion resistance. In addition, no environmentally unsafe processes are required for the precise deposition of powder.

    Abstract translation: 诸如容器盖的物体通过在预定区域上沉积粉末而排列在物体的预定区域上。 衬里材料形成具有40度或更大的静止角的非球形粉末。 粉末通过使用振动将粉末流化在进料器中而沉积,并通过喷嘴将粉末输送到预定区域。 沉积在物体上的粉末层用模制元件压制以形成具有预定形状的衬里层。 如此形成的衬里具有预定的厚度分布和形状,具有良好的紧固和密封性能和耐腐蚀性。 另外,粉末的精确沉积不需要环境不安全的工艺。

    Emulsion water paint and process for its production using epoxy acrylic-resolve resin blends
    5.
    发明授权
    Emulsion water paint and process for its production using epoxy acrylic-resolve resin blends 失效
    乳液水性涂料及其使用环氧丙烯酸树脂树脂的生产工艺

    公开(公告)号:US5110847A

    公开(公告)日:1992-05-05

    申请号:US632681

    申请日:1990-12-24

    Applicant: Shunji Kojima Yoshiki Watanabe Hiroaki Goto Toshinori Moriga

    Inventor: Shunji Kojima Yoshiki Watanabe Hiroaki Goto Toshinori Moriga

    IPC: B05D3/00 C08J3/03 C08L61/04 C08L63/00 C09D5/02 C09D127/06 C09D133/02 C09D133/04 C09D133/06 C09D163/00

    CPC classification number: C09D163/00 B05D3/007 C08J3/03 C09D127/06 C09D133/02 C09D133/04 C09D133/064 C09D5/02 C09D5/022 C08L61/04 C08L63/00

    Abstract: An o/w water paint having excellent dispersibility and stability is prepared according to a phase conversion process comprising adding ammonia or an amine and water to a solution of an epoxy resin, a hardener resin, and an acrylic resin in an organic solvent or to a molten mixture of these resins to neutralize the acrylic resin. In view of adhesion of a coat to metal and workability, branched alkylamines or heterocyclic amines are suitable as the neutralizing amines. In applying this paint, steam optionally containing fine water droplets is preferably applied to a wet coat prior to drying. Furthermore, a process for the continuous production of an emulsion type water paint comprising a carboxyl group-containing acrylic resin component, an epoxy resin component and a curing agent resin component for the epoxy resin is disclosed.

    Abstract translation: 根据相转化方法制备具有优异的分散性和稳定性的o / w水性涂料,其包括将氨或胺和水加入到有机溶剂中的环氧树脂,固化剂树脂和丙烯酸树脂的溶液中,或者 这些树脂的熔融混合物中和丙烯酸树脂。 考虑到涂层与金属的粘合性和可加工性,支链烷基胺或杂环胺适合作为中和胺。 在施加该涂料时,优选在干燥之前将潮湿的涂层施加任选地含有细小水滴的蒸汽。 此外,公开了连续制造包含含羧基的丙烯酸树脂组分,环氧树脂组分和用于环氧树脂的固化剂树脂组分的乳液型水性涂料的方法。

    Storage battery and insulating material and battery container using the same
    9.
    发明申请
    Storage battery and insulating material and battery container using the same 审中-公开

    公开(公告)号:US20090104521A1

    公开(公告)日:2009-04-23

    申请号:US11919627

    申请日:2006-05-17

    Applicant: Norifumi Yasuda Hisashi Katoh Shigeki Oyama Eisuke Komazawa Yasuhiro Matsumoto Shuji Sasaki Kenichi Murakami Masayuki Ishii Hiroshi Fujimoto Kanji Kuroda Yoshiaki Yui Toshinori Moriga Munemitsu Hirotsu

    Inventor: Norifumi Yasuda Hisashi Katoh Shigeki Oyama Eisuke Komazawa Yasuhiro Matsumoto Shuji Sasaki Kenichi Murakami Masayuki Ishii Hiroshi Fujimoto Kanji Kuroda Yoshiaki Yui Toshinori Moriga Munemitsu Hirotsu

    IPC: H01M2/06 H01M2/08 H01M2/04 C08G63/127

    CPC classification number: H01M2/065 H01M2/0417 H01M2/08

    Abstract: A storage battery which can further intensify the sealing properties of the electrode rod piercing portion thereof, a technique capable of increasing the area of the sealing surface at the sealed portion of the storage battery, a technique capable of certainly preventing the missing of mounting of a rubber-based sealing material corresponding to O-ring at the sealed portion of the storage battery, and an insulating material having an excellent corrosion resistance to highly corrosive battery content and a battery container including same are provided.An electrode rod 14 is allowed to extend upward through an annular member 15, a pressing member 18 is placed on the annular member 15, and a nut 22 is then threaded on a thread portion 21. This threading job is effected until the pressing member 18 is placed on and stopped by a collar portion 23. At the time when threading ends, a neck portion 25 is somewhat compressed to exhibit sealing properties. At the same time, a head portion 26 is drastically compressed and thus forms a first sealing portion at Point P1, a second sealing portion at Point P2 and a third sealing portion at Point P3. Further, while a disc sealing member 23 being properly compressed by the annular member 15 made of a resin and a current collecting plate 17, they are put in a vacuum heating furnace where they are then subjected to heat treatment at 160° C. in vacuo for 72 hours. This heat treatment allows PET film 25 to be heat-fused to the annular member 15 made of a resin and PET film 26 to be heat-fused to the current collecting plate 17. Moreover, a lid body 12 is formed integrally with an annular member 15 of rubber having a spindle-shaped section. And, this annular member 15 of rubber is bonded to PET film 32, 32 by the action of adhesive layer 33, 33. Since this bonding is firm, the annular member 15 of rubber cannot be detached from the lid body 12 during use.Further, an insulating material for electrode mounting to be used in a battery container which is made of a polyethylene terephthalate resin and a container having a lid member obtained by forming a polyester resin-coated aluminum sheet double-seamed attached to the opening of the body of a can are provided, and a polyethylene terephthalate resin insulating material for electrode mounting is attached to a through-hole provided piercing the central part of the lid member with an adhesive including (B) a hardener made of at least one of phenolic resin, amino resin and polyisocyanate resin incorporated in (A) a polyester resin including a dicarboxylic acid component mainly including terephthalic acid and a glycol component and having a glass transition temperature of from 30° C. to 110° C., whereby the battery content has an excellent corrosion resistance to the electrolyte including a highly corrosive propylene carbonate salt as a main component, etc. and an enhanced leakage resistance.

    Sealing gasket for closure and process for production of closure using the same
    10.
    发明授权
    Sealing gasket for closure and process for production of closure using the same 失效
    用于封闭的密封垫圈和使用其的生产闭合的过程

    公开(公告)号:US06872796B2

    公开(公告)日:2005-03-29

    申请号:US09976011

    申请日:2001-10-15

    Applicant: Toshinori Moriga Hiroei Yokota Toshihiko Tsuchida Noriyoshi Yano

    Inventor: Toshinori Moriga Hiroei Yokota Toshihiko Tsuchida Noriyoshi Yano

    IPC: B65D53/00 B65D53/06 C08G18/66 C08G18/75 C09K3/10 C08G18/79

    CPC classification number: B65D53/06 C08G18/6607 C08G2190/00 C09K3/1021 Y10S215/04

    Abstract: A sealing gasket for closure, made of a polyurethane elastomer obtained by reacting the following (A) and (B):(A) a polyisocyanate component having an isocyanate group content of 5 to 38% by weight and average 2 to 3 functional groups, obtained by modifying an aliphatic isocyanate and/or an alicyclic isocyanate, and(B) a polyol component having a hydroxyl value of 20 to 350 mgKOH/g and average 2 to 3 functional groups; and a process for producing a closure using such a sealing gasket.The closure sealing gasket made of a polyurethane elastomer, obtained by the present invention, when used for a closure (e.g. a metal closure of food container), causes no yellowing by ultraviolet light, has a strength at least equal to those of sealing gaskets produced from an aromatic isocyanate.

    Abstract translation: 一种用于封闭的密封垫圈,由聚氨酯弹性体制成,所述聚氨酯弹性体通过使下列(A)和(B):(A)反应得到异氰酸酯基含量为5-38重量%和平均2-3个官能团的多异氰酸酯组分, 通过改性脂肪族异氰酸酯和/或脂环族异氰酸酯得到的(B)羟值为20〜350mgKOH / g,平均2〜3个官能团的多元醇成分; 以及使用这种密封垫片制造封盖的方法。由本发明获得的聚氨酯弹性体制成的闭合密封垫圈用于封闭(例如,食品容器的金属封闭件)时,不产生紫外线变黄 具有至少等于由芳族异氰酸酯生产的密封垫片的强度。

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