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    • 2. 发明专利
    • Internally chilled article production method and internally chilled article
    • 内部冷冻制品生产方法和内部冷冻制品
    • JP2007260766A
    • 2007-10-11
    • JP2006093170
    • 2006-03-30
    • Iwate Industrial Research CenterIwate Univ国立大学法人岩手大学地方独立行政法人 岩手県工業技術センター
    • IKE HIROYUKITAKAGAWA KANJINABE HIROYUKIKUROKI MIYUKIMONMA NORITOMOIWASHIMIZU KOJI
    • B22D19/00B22C9/02B22C9/04B44C1/28C22C13/00C22C13/02
    • PROBLEM TO BE SOLVED: To enhance the quality of an internally chilled article by reducing such adverse influence on the internally chilled article that an internal chill material is easily cracked or the internal chill material is melted and its shape is easily lost, and improving the adhesion between the internal chill material and a casting metal.
      SOLUTION: An internally chilled article production method is provided in which the internal chill material W is arranged in a mold K, and then a melted casting metal M is poured into the mold K to produce the internally chilled article, wherein tin or a tin alloy is used as the casting metal M. The tin alloy contains at least one kind of substance selected from among Sb, Zn, Al, Ca, Cu, Fe, Mg and Si. The tin or tin alloy has high specific gravity, has satisfactory wettability with the internal chill material, and is easily joined to the internal chill material without forming an oxide film. Further, because of the relatively low melting point of the tin or tin ally, the temperature of molten metal can be set relatively low. Accordingly, adverse influences on the internally chilled article such as easy cracking of the internal chill material by thermal impact or easy shape collapse of the internal chill material due to melting are avoided. The internally chilled article of high quality can be obtained throgh the above procedure.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:为了通过减少对内部冷却物品的易受破坏的内部冷却材料或内部冷却材料熔化并且其形状容易损失的内部冷冻制品的这种不利影响来提高内部冷冻制品的质量,以及 改善内部冷却材料和铸造金属之间的粘合性。 解决方案:提供一种内部冷冻制品的制造方法,其中将内部冷却材料W布置在模具K中,然后将熔融的铸造金属M倒入模具K中以制造内部冷冻制品,其中锡或 使用锡合金作为铸造金属M.该锡合金含有选自Sb,Zn,Al,Ca,Cu,Fe,Mg和Si中的至少一种物质。 锡或锡合金具有高比重,与内部冷却材料具有令人满意的润湿性,并且容易地连接到内部冷却材料而不形成氧化膜。 此外,由于锡或锡的熔点相对较低,熔融金属的温度可以设定得相对较低。 因此,避免了对内部冷冻制品的不利影响,例如通过热冲击容易地破裂内部冷却材料,或者避免由于熔化而使内部冷却材料容易形状崩溃。 根据上述程序可以获得高品质的内部冷冻制品。 版权所有(C)2008,JPO&INPIT
    • 3. 发明专利
    • Method for removing impurity from molten cast iron
    • 从铸铁中除去污染物的方法
    • JP2008045165A
    • 2008-02-28
    • JP2006220775
    • 2006-08-12
    • Iwate Industrial Research Center地方独立行政法人 岩手県工業技術センター
    • TAKAGAWA KANJINIKE HIROYUKISATO KAZUHIROTAKAHASHI NAOYUKI
    • C21C1/08
    • PROBLEM TO BE SOLVED: To more efficiently remove impurities by promoting a demanganization reaction while suppressing the increase of the quantity of an iron oxide to a minimal value.
      SOLUTION: This method for removing impurities comprises steps of: dividing a mixed raw material group including a plurality of iron-base raw materials into a first raw material group G1 with a mass of Ma, in which a mass content ratio Ea of silicon to manganese satisfies Ea≤1.5, and a second raw material group G2 with a mass of Mb, in which a mass content ratio Eb of silicon to manganese satisfies Eb>Ea and also the mass Mb satisfies Mb≤1.5Ma; melting the first raw material group G1 at first; adding an iron oxide to the molten cast iron to float up slag to the surface of the molten metal; subsequently adding the second raw material group G2 to the molten metal of the first raw material group G1; and melting the second raw material group G2 together with the first raw material group G1 to float up the slag to the surface of the molten cast iron again.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 解决的问题:为了更有效地除去杂质,同时抑制氧化铁的量增加到最小值,同时促进去离子化反应。 解决方案:这种去除杂质的方法包括以下步骤:将包含多个铁基原料的混合原料组分成质量为Ma的第一原料组G1,其中质量含量比Ea为 硅与锰满足Ea≤1.5,质量为Mb的第二原料组G2,其中硅与锰的质量含量比Eb满足Eb> Ea,质量Mb满足Mb≤1.5Ma; 首先熔化第一原料组G1; 向熔融铸铁中加入氧化铁以将渣浮起至熔融金属的表面; 随后将第二原料组G2加入到第一原料组G1的熔融金属中; 并且与第一原料组G1一起熔化第二原料组G2,以将炉渣再次浮起至熔融铸铁的表面。 版权所有(C)2008,JPO&INPIT
    • 6. 发明专利
    • Sleeve for die casting machine, and its manufacturing method
    • 模具机及其制造方法
    • JP2008246551A
    • 2008-10-16
    • JP2007092869
    • 2007-03-30
    • Iwate Industrial Research CenterKonishi Chuzo:Kk地方独立行政法人 岩手県工業技術センター株式会社小西鋳造
    • IKE HIROYUKITAKAGAWA KANJINIWASHIMIZU KOJIKONISHI NOBUO
    • B22D17/20
    • PROBLEM TO BE SOLVED: To more enhance durability by using a material excellent in erosion resistance and wear resistance for the inside of a wall part to improve the wear resistance and the erosion resistance and to enhance the joining strength between the material excellent in erosion resistance and wear resistance and the wall part.
      SOLUTION: A molten metal pouring hole 11 for supplying the molten metal is formed in the back-side of a cylindrical wall part 10, and the molten metal supplied from the molten metal pouring hole 11 is spouted from an opening hole 13 at the front-side with a plunger sliding the inner part. In the whole or a part of the inside of the wall part 10, a preform 20 sticking powdery cermet material 21 with a basic metal 22 by melting the basic metal 22, is exposed at the cermet material 21 side of the preform 20 and integrally formed with the insert-casting.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了通过使用对壁部内部具有优异的耐腐蚀性和耐磨性的材料来提高耐磨性和耐冲蚀性,提高耐久性,并且提高优异的材料之间的接合强度 耐腐蚀性和耐磨性和壁部分。 解决方案:在圆筒壁部10的后侧形成用于供给熔融金属的熔融金属注入孔11,从熔融金属注入孔11供给的熔融金属从开口孔13喷出 前侧具有滑动内部的柱塞。 在壁部件10的内部的全部或一部分中,通过熔化碱性金属22将具有碱性金属22的粉状金属陶瓷材料21粘附在预成型体20的金属陶瓷材料21侧并露出, 与插入式。 版权所有(C)2009,JPO&INPIT
    • 7. 发明专利
    • Method for treating nickel plating sludge
    • 处理镍镀层污泥的方法
    • JP2006274309A
    • 2006-10-12
    • JP2005092042
    • 2005-03-28
    • Iwate Industrial Research CenterTokyo Wire Works Ltd地方独立行政法人 岩手県工業技術センター株式会社東京ワイヤー製作所
    • SHIYOUBUSAWA YOSHIYUKITAKAGAWA KANJINIKE HIROYUKISATO TADASHIYAMADA HIROYOSHISASAKI HIROSHI
    • C22B23/02C02F11/06C02F11/10C02F11/12C22B5/10C22B7/00C22B9/10
    • Y02W30/54
    • PROBLEM TO BE SOLVED: To provide a system where nickel can be recovered from nickel plating sludge at a recovery of ≥80%, and can be recycled as useful resources. SOLUTION: The method comprises: a drying stage where recovered nickel plating sludge is heated, so as to reduce a water content therein; an oxidizing stage where the obtained dry nickel plating sludge is heated at high temperature and is oxidized, so as to be nickel oxide-containing lumpy matter; a preliminary reducing stage where the obtained lumpy matter is pulverized, is thereafter heated together with a carbon source, and is subjected to preliminary reducing; a melting-reducing stage where the obtained preliminarily reduced product is heated and melted together with the carbon source; and a recovering stage where the melted and reduced metal nickel is recovered. Upon the heating and melting for the preliminarily reduced product, it is possible that shell powder is charged, and dephosphorization and desulfurization are jointly performed. Also, it is possible that the nickel plating sludge obtained through the drying stage is accumulated, and after its storage by a fixed amount, the treatments on and after the oxidizing stage are continuously performed. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供镍回收率高于80%的镍电池回收系统,可作为有用资源回收利用。 解决方案:该方法包括:将回收的镍电镀污泥加热的干燥阶段,以减少其中的含水量; 所得到的干镍电镀污泥在高温下被加热并被氧化的氧化阶段,以便是含氧化镍的块状物质; 将得到的块状物粉碎的初步还原阶段随后与碳源一起加热,进行初步还原; 将得到的预缩合物与碳源一起加热熔融的熔融还原阶段; 以及回收熔融和还原的金属镍的回收阶段。 对于预先还原的产物进行加热熔化,可以将壳粉末装入,脱磷脱硫一起进行。 此外,通过干燥阶段获得的镀镍污泥可能被累积,并且在其保存一定量之后,连续进行氧化阶段和之后的处理。 版权所有(C)2007,JPO&INPIT