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    • 2. 发明专利
    • Method of manufacturing polylactic acid-based resin molded product
    • 制备聚酯酸树脂模制产品的方法
    • JP2010110961A
    • 2010-05-20
    • JP2008284489
    • 2008-11-05
    • Toyota Central R&D Labs IncToyota Motor Corpトヨタ自動車株式会社株式会社豊田中央研究所
    • KUROSE TAKASHIHONMA NOBUTAKAOKAMOTO HIROTAKAKATO MAKOTOKAWADA JUNPEIKATAGIRI YOSHIHIDE
    • B29C45/00C08K5/20C08L67/04
    • PROBLEM TO BE SOLVED: To provide a method of manufacturing a polylactic acid-based resin molded product obtaining unconventionally high heat resistance even when molded at a die temperature of 80°C or lower because the heat resistance of a molded product is at most about 80-90°C which is inadequate when the die temperature is 80°C or lower although a trimesic acid triamide compound or the like is conventionally proposed as a crystal nucleating agent. SOLUTION: The method of manufacturing the polylactic acid-based resin molded product by injection-molding a resin composition obtained by kneading polylactic acid-based resin and the trimesic acid triamide compound is carried out on conditions of (a) the compounded amount of the trimesic acid triamide compound in the resin composition: 0.7-1.3 wt.%, (b) a kneading temperature: 200-210°C, (c) a cylinder temperature: 210-240°C, (d) a retention time in a cylinder: 0.5-2 minutes, and (e) a die temperature: 60-85°C. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种制备聚乳酸类树脂成型体的方法,即使在模具温度为80℃以下的模具温度下成型时也获得非常高的耐热性,因为模制品的耐热性在 最多约80-90℃,当模具温度为80℃或更低时,尽管常规地提出了均苯三甲酸三酰胺化合物等作为晶体成核剂。 解决方案:通过将通过捏合聚乳酸类树脂和均苯三酸三酰胺化合物得到的树脂组合物注塑成型制备聚乳酸类树脂成型体的方法,是在(a)配合量 的树脂组合物中的均苯三酸三酰胺化合物:0.7-1.3重量%,(b)捏合温度:200-210℃,(c)料筒温度:210-240℃,(d)保留时间 在汽缸中:0.5-2分钟,(e)模头温度:60-85℃。 版权所有(C)2010,JPO&INPIT
    • 7. 发明专利
    • Joined body of metallic material and resin material, method of manufacturing metallic material for joining with resin material used for manufacturing same, and method of manufacturing the joined body
    • 金属材料和树脂材料的接合体,用于制造用于与其制造的树脂材料接合的金属材料的方法以及制造接合体的方法
    • JP2012214027A
    • 2012-11-08
    • JP2012062480
    • 2012-03-19
    • Toyota Central R&D Labs Inc株式会社豊田中央研究所
    • ISHIZAKI TOSHITAKAKATAGIRI YOSHIHIDE
    • B32B15/08B29C65/02
    • PROBLEM TO BE SOLVED: To provide a joined body of a metallic material and a resin material which has sufficient joining strength between the metallic material and the resin material, and whose design concerning a kind and a shape of the metallic material in the joined body can be desirably performed depending on applications.SOLUTION: The joined body is obtained by joining the metallic material 11 and the resin material 12 wherein the resin material 12 contains a thermoplastic resin material having at least one kind of a functional group selected from thiol, amide, imide, ester and ether; an uneven shape of metallic particles is formed in the area of the joining boundary surface; the whole area of the area of the uneven shape is 40% or more of the area of the joining boundary surface area; the metallic particles are the particles containing at least one kind of the metal selected from a group consisting of Au, Ag, Cu, Pt, Ru, Pd, Ir, Os and Rh; the average height of the uneven shape is 80 to 600 nm; and the average distance between the peaks of the protrusive parts of the uneven shape is 100 to 3,000 nm.
    • 要解决的问题:提供一种金属材料和树脂材料的接合体,该金属材料和树脂材料在金属材料和树脂材料之间具有足够的接合强度,并且其设计涉及金属材料和树脂材料的种类和形状 可以根据应用来理想地进行接合体。 解决方案:通过将金属材料11和树脂材料12接合而获得接合体,其中树脂材料12含有具有至少一种选自硫醇,酰胺,酰亚胺,酯的官能团的热塑性树脂材料和 醚; 在接合界面的区域形成金属颗粒的不均匀形状; 不均匀形状的区域的整个面积为接合边界面积的面积的40%以上; 金属颗粒是含有选自Au,Ag,Cu,Pt,Ru,Pd,Ir,Os和Rh中的至少一种金属的颗粒; 不均匀形状的平均高度为80〜600nm; 并且不平坦形状的突出部的峰之间的平均距离为100〜3000nm。 版权所有(C)2013,JPO&INPIT
    • 9. 发明专利
    • Resin composition and method of producing the same
    • 树脂组合物及其生产方法
    • JP2011184681A
    • 2011-09-22
    • JP2011012709
    • 2011-01-25
    • Toyota Central R&D Labs Inc株式会社豊田中央研究所
    • MORISHITA TAKUYAMATSUSHITA MITSUMASAKATAGIRI YOSHIHIDEFUKUMORI KENZOTAKAHARA MINORU
    • C08L101/00C08J3/20C08K3/04C08K11/00C09K5/08H01L23/373
    • PROBLEM TO BE SOLVED: To provide a resin composition having both thermal conductivity and insulation at high levels and hardly expressing the anisotropy of thermal conductivity even during processing under shearing such as injection molding, and to provide a method of producing the same. SOLUTION: The resin composition contains (A) a conductive nano filler, (B) two or more resin, and (C) a compound having a functional group. The resin composition is provided with a dispersion phase formed of a resin (B aff ) having the highest affinity for the conductive nano filler (A) among the two or more resin (B) and a continuous phase formed of the remaining one or more resin (B1), wherein in the dispersion phase, the conductive nano filler (A) is present and when the content of the dipsersion phase in the whole resin composition is X (unit: content%) and the content of the conductive nano filler (A dsp ) contained in the dispersion phase, with respect to the whole conductive nano filler (A) is Y (unit: content%), Y is 20 content% or more and Y/X is 1.2 or more. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:为了提供具有高水平的导热性和绝缘性的树脂组合物,并且即使在诸如注射成型的剪切下的加工期间也几乎不表现导热性的各向异性,并且提供其制造方法。 解决方案:树脂组合物含有(A)导电纳米填料,(B)两种或更多种树脂,(C)具有官能团的化合物。 树脂组合物具有由两种以上的树脂(B)中的导电性纳米填料(A)的亲和性最高的树脂(B< SB>< SBB)形成的分散相和形成的连续相 剩余的一种或多种树脂(B1),其中在分散相中存在导电纳米填料(A),并且当整个树脂组合物中浸渍相的含量为X(单位:含量%),并且含量 相对于整个导电性纳米填料(A),分散相中所含的导电性纳米填料(A dsp )为Y(单位:含量%),Y为20质量%以上, Y / X为1.2以上。 版权所有(C)2011,JPO&INPIT