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    • 24. 发明专利
    • Powder coating material and method for producing the same
    • 粉末涂料及其制造方法
    • JP2004300306A
    • 2004-10-28
    • JP2003095698
    • 2003-03-31
    • Tatsuhiko AizawaDainippon Toryo Co LtdKurimoto LtdMeishin Kk名神株式会社大日本塗料株式会社株式会社栗本鐵工所龍彦 相澤
    • KITAGAWA MASAYOSHIMICHIURA YOSHISADATAKAHARA WATARUYAMAMOTO YOSHIAKISANO HIDEJIAIZAWA TATSUHIKOADACHI TOSHIHIKO
    • C09D201/00C09D5/03
    • PROBLEM TO BE SOLVED: To improve productivity of a powder coating material, and dispersibility of a resin, a pigment, a curing agent and the like which are raw materials therefor.
      SOLUTION: The method for producing the powder coating material comprises mixing the resin, the pigment, the curing agent and the like which are the raw materials for the powder coating material, charging the mixed product in a cavity 1a of a mold 1, and repeatedly adding a load to the mixture by punches 2 and 3 from upper and lower sides, that is, by a bulk mechanical alloying (BMA) method to disperse and mix the raw materials. A melting step by heat becomes unnecessary by dispersing the raw materials by the BMA method to enable constrained conditions of the raw materials therefor to be eliminated. Further, the amount of the curing agent is reduced to make the coating operability excellent by increasing the dispersibility of the curing agent. A low-temperature curable coating material can be designed, and a curing agent which can not be used conventionally can be used to widen the width of selection of the curing agent because the melting step becomes unnecessary.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 待解决的问题:提高作为原料的粉末涂料的生产率和树脂,颜料,固化剂等的分散性。 < P>解决方案:粉末涂料的制造方法包括将作为粉末涂料的原料的树脂,颜料,固化剂等混合,将混合物在模具1的空腔1a内 并且通过上下两侧的冲头2和3,即通过大量机械合金化(BMA)方法向混合物反复添加负荷,以分散和混合原料。 通过用BMA法分散原料而不需要通过加热的熔融步骤,以消除原料的限制条件。 此外,通过降低固化剂的分散性,可以减少固化剂的使用量,使涂布操作性优异。 可以设计低温固化涂层材料,并且可以使用常规不能使用的固化剂来扩大固化剂的选择宽度,因为不需要熔融步骤。 版权所有(C)2005,JPO&NCIPI
    • 26. 发明专利
    • Pipe end corrosion-resistant structure
    • 管端耐腐蚀结构
    • JP2003322292A
    • 2003-11-14
    • JP2002131455
    • 2002-05-07
    • Kurimoto Ltd株式会社栗本鐵工所
    • HIRATA SHOICHIKITAGAWA MASAYOSHIMICHIURA YOSHISADAYAMAMOTO YOSHIHIKO
    • F16L21/00F16L57/00
    • PROBLEM TO BE SOLVED: To provide a pipe end corrosion-resistant structure which is free from any troubles even when used for a water supply pipe.
      SOLUTION: In a pipe end corrosion-resistant structure in an NS-type pipe joint having an expansion function, a spigot 2a of one pipe 2 is inserted in a socket of the other pipe, a lock ring is provided on an inner surface of the socket, and a ring locked to the lock ring is provided on an outer surface of the spigot 2a. A corrosion-resistant core 7 formed of ethylene propylene rubber (EPR) fitted to the pipe end of the spigot 2a is covered from an outer surface of an end of the spigot so as to reach an inner surface through the end face of the spigot, and fixed thereto. A seal material 20 which is a polyethylene tape 21 with an adhesive surface thereof formed of acrylic adhesive is adhered to an exposed surface of a groove 4a for a spigot ring. The EPR and the acrylic adhesive have no troubles even when they are brought into contact with tap water.
      COPYRIGHT: (C)2004,JPO
    • 要解决的问题:提供即使在用于供水管时也没有任何问题的管端耐腐蚀结构。

      解决方案:在具有膨胀功能的NS型管接头中的管端耐腐蚀结构中,一根管2的插口2a插入另一管的插座中,锁定环设置在内侧 插座的表面和锁定在锁定环上的环设置在插口2a的外表面上。 由安装在插口2a的管端的乙丙橡胶(EPR)形成的耐腐蚀芯7从套管的端部的外表面覆盖,以通过套管的端面到达内表面, 并固定在其上。 作为由丙烯酸系粘合剂形成的粘合剂表面的聚乙烯带21的密封材料20粘接到用于插口环的槽4a的露出面上。 EPR和丙烯酸粘合剂即使在与自来水接触时也没有问题。 版权所有(C)2004,JPO

    • 27. 发明专利
    • Method for predicting softening temperature of thermoplastic resin
    • 预测热塑性树脂软化温度的方法
    • JP2003294660A
    • 2003-10-15
    • JP2002095758
    • 2002-03-29
    • Kenji AzumaKurimoto Ltd健司 東株式会社栗本鐵工所
    • TORII HIDEYAMICHIURA YOSHISADAKITAGAWA MASAYOSHIAZUMA KENJI
    • G01N25/04G06F17/50
    • PROBLEM TO BE SOLVED: To quickly and surely predict a softening temperature of a thermoplastic resin by calculating as efficiently as possible and simply, easily and surely evaluate a thermal property of the thermoplastic resin before synthesis.
      SOLUTION: In a method for predicting the softening temperature of the thermoplastic resin with designed molecules by molecular simulation using molecular dynamics calculation, a molecular aggregation model comprises an aggregation of 300-5000 atoms having a molecular mass distribution approximated to a molecular mass distribution of the thermoplastic resin. The model is built by inputting data of the molecular mass distribution and density as an initial condition of calculation, the most stable structure in an amorphous state of the molecular aggregation model is found by the molecular dynamics calculation, a time-series change of interaction energy within and between molecules of the molecular aggregation model is found by simulation calculation using molecular dynamics when a temperature is changed in the most stable structure, and a temperature corresponding to an inflection point of an obtained energy convergence value is determined as a predicted value of the softening temperature.
      COPYRIGHT: (C)2004,JPO
    • 要解决的问题:通过尽可能有效地计算,简单,容易且可靠地评价热塑性树脂在合成前的热性能,快速,可靠地预测热塑性树脂的软化温度。 解决方案:在使用分子动力学计算通过分子模拟预测具有设计分子的热塑性树脂的软化温度的方法中,分子聚集模型包括具有近似分子量的分子量分布的300-5000个原子的聚集 分布热塑性树脂。 该模型通过输入分子质量分布和密度数据作为计算的初始条件,通过分子动力学计算发现分子聚集模型的非晶态最稳定的结构,相互作用能量的时间序列变化 在分子聚集模型的分子之间和之间通过使用分子动力学的模拟计算发现,当温度在最稳定的结构中变化时,与获得的能量收敛值的拐点相对应的温度被确定为 软化温度。 版权所有(C)2004,JPO