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    • 1. 发明专利
    • Method for manufacturing titanium alloy
    • 制造钛合金的方法
    • JP2007084888A
    • 2007-04-05
    • JP2005276460
    • 2005-09-22
    • Toyota Central Res & Dev Lab Inc株式会社豊田中央研究所
    • RONG CHENITO KAZUHIKONISHINO KAZUAKI
    • C22B9/20C22B9/04C22C1/02C22C1/04C22C14/00C22F1/00C22F1/02C22F1/18
    • PROBLEM TO BE SOLVED: To provide a method for manufacturing a titanium alloy increased in the content of group Va elements by which composition fluctuations and solidification segregation can be more reduced than ever before.
      SOLUTION: The manufacturing method comprises: a melting step in which vacuum arc melting is performed using, as a consumable electrode 1, of a powder compact prepared by compacting a uniform raw material powder of 20μm to 1 mm average particle size which is regulated into a desired overall composition consisting of a group of alloying elements including at least group Va elements and titanium as the main balance; a solidification step in which the resultant molten alloy 2 melted in the melting step is successively cooled to undergo solidification; and a heat treatment step in which the resultant alloy ingot 3 prepared by solidification in the solidification step is subjected to homogenizing heat treatment. By this method, the titanium alloy characterized as follows can be obtained: the above group of alloying elements is contained, when the total is 100 mass%, in an amount of 15 to 60 mass% in sum; and the "amount of element segregation" of the elements included in the group of alloying elements and Ti is made to ≤0.9 mass%. The above "amount of element segregation" means the microscopic amount of segregation with respect to each element, occurring in a minute area of the titanium alloy.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种制造钛合金的方法,其中Va组分的含量增加,组合物波动和固化分离可以比以前更加降低。 解决方案:制造方法包括:熔融步骤,其中使用通过压制20μm至1mm平均粒度的均匀原料粉末制备的粉末压块作为可消耗电极1进行真空电弧熔化,其为 调节成由包含至少Va族元素和钛作为主要平衡的一组合金元素组成的期望的总体组成; 在熔融步骤中熔融的熔融合金2连续冷却以固化的凝固步骤; 以及在固化步骤中通过固化制备的所得合金锭3进行均化热处理的热处理步骤。 通过该方法,可以得到如下特征的钛合金:总计为100质量%时,含有上述组合金属元素,总计为15〜60质量% 并且包含在合金元素组和Ti中的元素的“元素偏析量”为≤0.9质量%。 上述“元素分离量”是指在钛合金的微小区域内发生的相对于各元素的微观偏析量。 版权所有(C)2007,JPO&INPIT
    • 2. 发明专利
    • Titanium alloy, titanium-alloy product and method for manufacturing them
    • 钛合金,钛合金产品及其制造方法
    • JP2005298855A
    • 2005-10-27
    • JP2004113491
    • 2004-04-07
    • Toyota Central Res & Dev Lab Inc株式会社豊田中央研究所
    • ITO KAZUHIKONISHINO KAZUAKICHIN SAKAE
    • C22B9/20C22B9/22C22C1/02C22C14/00C22F1/00C22F1/18
    • PROBLEM TO BE SOLVED: To provide a method for melting a titanium alloy containing many Va group elements.
      SOLUTION: The method for manufacturing the titanium alloy comprises: a melting step wherein a uniform raw-material powder of 1μm to 5 mm average particle size, which is regulated into a desired total composition consisting of a group of alloying-elements containing at least Va group elements and the main balance Ti, is compacted into a desired shape and the resultant powder compact is heated to undergo melting; and a solidification step wherein the resultant molten alloy melted in the above melting step is successively cooled to undergo solidification. After the solidification step, the titanium alloy containing the above Va group elements in the amount of 15 to 60 mass% in total (when the whole is 100 mass%) and having an alloy composition practically uniform regardless of the part of the alloy can be obtained. By melting the powder compact composed of the powder with the specific particle size, the uniform titanium alloy which hardly causes unmelting even in the case where large amounts of high-melting-point alloying elements are contained and is minimal in composition fluctuations, solidification segregation, etc., can be obtained.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 待解决的问题:提供一种熔融含有许多Va族元素的钛合金的方法。 解决方案:制造钛合金的方法包括:熔融步骤,其中平均粒径为1μm至5mm的均匀的原料粉末,其被调节成由一组合金元素组成的所需总组合物,所述合金元素包含 至少Va族元素和主要平衡Ti被压制成所需形状,并将所得粉末压块加热以进行熔融; 和固化步骤,其中在上述熔融步骤中熔化的所得熔融合金相继冷却以固化。 在固化步骤之后,不管合金的一部分,含有总计为15〜60质量%(全部为100质量%)且合金组成几乎均匀的上述Va族元素的钛合金可以是 获得。 通过熔化由具有特定粒度的粉末组成的粉末压块,即使在含有大量高熔点合金元素并且组成波动最小,凝固偏析的情况下也难以引起不熔化的均匀钛合金, 等等。 版权所有(C)2006,JPO&NCIPI
    • 4. 发明专利
    • Method for covering base material composed of titanium or titanium alloy
    • 覆盖钛或钛合金组成的基体材料的方法
    • JP2007100180A
    • 2007-04-19
    • JP2005292802
    • 2005-10-05
    • Toyota Central Res & Dev Lab Inc株式会社豊田中央研究所
    • SUGIMOTO YOSHIHIKORONG CHENITO KAZUHIKONISHINO KAZUAKI
    • C23C26/00C23C14/54C23C22/12C23F4/00C25F3/26
    • PROBLEM TO BE SOLVED: To provide a method for covering a base material composed of titanium or a titanium alloy where, even in the case surface treatment temperature is low, a covering layer whose adhesion properties with the base material are high can be formed.
      SOLUTION: The covering method comprises: an activation treatment stage where the surface of a base material composed of titanium or a titanium alloy is activated; a base material covering stage where a covering layer is formed on the surface of the activated base material, and the activation of the base material and the formation of the covering layer are performed under the condition where the temperature of the base material does not exceed 300°C. The base material is preferably composed of a group Va element-containing titanium alloy consisting of an alloy element group at least comprising a group Va element(s) and the balance mainly titanium (Ti). Particularly, it is effective in the case the titanium alloy comprises the alloy element group consisting of zirconium (Zr), tantalum (Ta) and niobium (Nb).
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种覆盖由钛或钛合金构成的基材的方法,其中即使在表面处理温度低的情况下,与基材的粘合性能高的覆盖层也可以是 形成。 解决方案:覆盖方法包括:激活处理阶段,其中由钛或钛合金构成的基材的表面被激活; 在活性基材的表面上形成覆盖层的基材覆盖层,基材的活化和覆盖层的形成在基材的温度不超过300的条件下进行 C。 该基材优选由含有Va元素的钛合金组成,该合金元素组至少包含Va族元素,余量主要为钛(Ti)。 特别地,在钛合金包括由锆(Zr),钽(Ta)和铌(Nb)组成的合金元素组的情况下是有效的。 版权所有(C)2007,JPO&INPIT
    • 5. 发明专利
    • Thermoelectric material and its manufacturing method
    • 热电材料及其制造方法
    • JP2007042963A
    • 2007-02-15
    • JP2005227389
    • 2005-08-05
    • Toyota Central Res & Dev Lab Inc株式会社豊田中央研究所
    • KAGA HISASHIASAHI RYOJIITO KAZUHIKO
    • H01L35/14B22F3/10C22C28/00H01L35/34
    • PROBLEM TO BE SOLVED: To provide a thermoelectric material of MnSi x base in which few impurities are mixed and which exhibits a relatively high thermoelectric characteristics, and to provide its manufacturing method. SOLUTION: The thermoelectric material is formed of a bulk polycrystalline material which includes MnSi x (1.6≤x≤1.85) as a major constituent, and in which ab faces of crystal grains are oriented in one direction. Such a thermoelectric material can be obtained by fusing a starting material which is so compounded that the thermoelectric material can be obtained (fusing process), and by bringing the molten metal into contact with a flat and smooth solidification surface (solidification process). COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:为了提供混合少量杂质并具有较高热电特性的MnSi x 基的热电材料,并提供其制造方法。

      解决方案:热电材料由主要成分为MnSi x (1.6≤x≤1.85)的块状多晶材料形成,其中晶粒的ab面朝向一个 方向。 这样的热电材料可以通过将如此复合的起始材料(可以获得热电材料)(熔合工艺)熔融并使熔融金属与平坦且平滑的凝固表面(凝固过程)接触来获得。 版权所有(C)2007,JPO&INPIT

    • 6. 发明专利
    • Adhesive wear testing device and adhesive wear test method
    • 胶粘剂磨损试验装置和胶粘剂磨损试验方法
    • JP2005098757A
    • 2005-04-14
    • JP2003330582
    • 2003-09-22
    • Toyota Central Res & Dev Lab Inc株式会社豊田中央研究所
    • OSHIMA TADASHISAITO TAKUTANAKA KOJIITO KAZUHIKONAKANISHI KAZUYUKITACHIKAWA HIDEOKOBAYASHI TAKAO
    • G01N3/56
    • PROBLEM TO BE SOLVED: To provide an adhesive wear testing device capable of testing and evaluating, in the specialized state in adhesive wearability of various materials.
      SOLUTION: This adhesive wear testing device is equipped with a first holding means 11 for holding the first test piece 10 having a first test surface 10a, a second holding means 21 for holding a second test piece 20 having a second test surface 20a facing to the first test surface 10a, a load applying means 30 for applying a repeated load to a contact part between both test surfaces, and a contact stabilization means 22 for carrying out repeatedly stable contact between both test surfaces. Hereby, wear generated between the first test surface and the second test surface is substantially specialized in adhesive wear generated between both test surfaces.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供能够在各种材料的粘合耐磨性的特殊状态下进行测试和评价的粘合剂磨损测试装置。 < P>解决方案:该粘合磨损试验装置配备有用于保持具有第一试验面10a的第一试验片10的第一保持机构11,用于保持具有第二试验面20a的第二试验片20的第二保持机构21 面对第一测试表面10a,用于对两个测试表面之间的接触部分施加重复负载的负载施加装置30以及用于在两个测试表面之间重复稳定接触的接触稳定装置22。 因此,在第一测试表面和第二测试表面之间产生的磨损基本上专门用于在两个测试表面之间产生的粘合剂磨损。 版权所有(C)2005,JPO&NCIPI
    • 8. 发明专利
    • Thermoelectric material and its manufacturing method
    • 热电材料及其制造方法
    • JP2009231638A
    • 2009-10-08
    • JP2008076820
    • 2008-03-24
    • Aisin Seiki Co LtdToyota Central R&D Labs IncToyota Motor Corpアイシン精機株式会社トヨタ自動車株式会社株式会社豊田中央研究所
    • ITO KAZUHIKOASAHI RYOJIKITA TAKUSHISUGIURA HIROTANE
    • H01L35/20C22C28/00C22F1/00H01L35/34
    • PROBLEM TO BE SOLVED: To provide a thermoelectric material using an MnSi x phase as a main phase and having excellent thermoelectric characteristics and heat-resistant shock resistance and a manufacturing method for the thermoelectric material. SOLUTION: The thermoelectric material using the MnSi x phase having a composition represented by general formula: (Mn 1-y [M 1 ] y )(Si 1-z [M 2 ] z ) x as the main phase and a manufacturing method for the thermoelectric material are provided. Where 1.7≤x≤1.85, 0.001≤y≤0.020 and 0.001≤z≤0.020 hold in formula. M 1 represents either one or more of elements selected from group Va elements, group VIa elements, group VIIa elements, group VIIIa elements, and lanthanoid elements. M 2 represents either one or more of the elements selected from group IIIb elements, group IVb elements, and the lanthanoid elements. Cr is preferable as M 1 , and Ge is preferable as M 2 . COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种使用MnSi x 相作为主相并具有优异的热电特性和耐热冲击性的热电材料以及该热电材料的制造方法。 解决方案:使用具有由通式:(Mn 1-y [M SB 1] / SBB)表示的组成的MnSi x 相的热电材料 ( y )(Si< SB> 1-z< SB>< SB> 作为主相和热电材料的制造方法。 其中1.7≤x≤1.85,0.001≤y≤0.020和0.001≤z≤0.020。 M 1 表示选自Va族元素,VIa族,VIIa族,VIIIa族和镧系元素中的一种或多种元素。 M 2 表示选自IIIb族元素,IVb族元素和镧系元素中的一种或多种元素。 Cr优选为M SB 1,并且Ge优选为M SB 2。 版权所有(C)2010,JPO&INPIT
    • 9. 发明专利
    • Diaphragm for metering pump
    • 用于测量泵的膜片
    • JP2009221901A
    • 2009-10-01
    • JP2008065090
    • 2008-03-14
    • Tacmina CorpToyota Central R&D Labs Inc株式会社タクミナ株式会社豊田中央研究所
    • NISHINO KAZUAKIITO KAZUHIKOFURUTA TADAHIKOSHIMIZU TOSHIHARU
    • F04B43/02
    • PROBLEM TO BE SOLVED: To provide a metallic diaphragm for a metering pump having a low Young's modulus and high elastic deformability.
      SOLUTION: The diaphragm for the metering pump capable of transferring a fluid by predetermined elastic deformation is formed of a highly elastically-deformable titanium alloy which: comprises a 30-60 mass%, group Va (vanadium group) element and the substantial balance of titanium; has a tensile elasticity limit of 700 MPa or more, defined as a stress applied when permanent deformation truly reaches 0.2% at a tensile test; exhibits a characteristic that, within an elastic deformation region where the stress to be applied ranges from 0 to the tensile elastic limit strength, the slope of a tangent on a stress-strain diagram obtained by the tensile test decreases with the increase in stress; and has an average Young's modulus of 75 GPa or less obtained from the slope of the tangent at a stress position corresponding to 1/2 of the tensile elastic limit strength as a typical value of Young's moduli obtained from the slope of the tangent on the stress-strain diagram.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种具有低杨氏模量和高弹性变形能力的用于计量泵的金属隔膜。 解决方案:能够通过预定弹性变形传递流体的计量泵的隔膜由高度可弹性变形的钛合金形成,该钛合金包括30-60质量%的Va族(钒族)元素, 钛的平衡; 具有700MPa以上的拉伸弹性极限,定义为在拉伸试验时永久变形确实达到0.2%时施加的应力; 表现出在应力应变范围为0〜拉伸弹性极限强度的弹性变形区域内,拉伸试验得到的应力应变图上的切线斜率随着应力的增加而减小; 并且从对应于拉伸弹性极限强度的1/2的应力位置处的切线的斜率获得的平均杨氏模量为75GPa以下,作为从应力的切线的斜率获得的杨氏模量的典型值 - 应变图。 版权所有(C)2010,JPO&INPIT