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    • 11. 发明专利
    • Apparatus and method for deriving of processing condition
    • 装置处理条件的设备和方法
    • JP2011252446A
    • 2011-12-15
    • JP2010127135
    • 2010-06-02
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • MIYAJI MASAKAZUFUJIOKA MASANORIAZAMI KEISUKEYOSHIDA DAISUKEOSAWA KEIOGUMA HIDETAKA
    • F02C7/00B09B5/00B22D46/00F01D25/00
    • PROBLEM TO BE SOLVED: To decide a proper processing condition at low cost, regarding a component as a target for recycling.SOLUTION: A reading unit 26 reads a serial number attached on a high temperature component for identifying the high temperature component. A CPU 12 verifies the read serial number with component information to derive features of a high temperature component corresponding to the read serial number. Further, the CPU 12 verifies preprocessing condition information indicating a preprocessing condition depending on the features of the high temperature component with the derived features of the high temperature component, derives a preprocessing condition corresponding to the derived features of the high temperature component and makes an image display unit 22 display the derived preprocessing condition.
    • 要解决的问题:以低成本确定适当的加工条件,关于作为回收目标的部件。 解决方案:读取单元26读取附着在用于识别高温分量的高温部件上的序列号。 CPU12使用分量信息来验证读取的序列号,以导出与读取的序列号对应的高温分量的特征。 此外,CPU12使用高温分量的导出特征来验证表示根据高温分量的特征的预处理条件的预处理条件信息,导出与高温分量的导出特征相对应的预处理条件,并使图像 显示单元22显示导出的预处理条件。 版权所有(C)2012,JPO&INPIT
    • 16. 发明专利
    • Method of estimating metal temperature of high- temperature member
    • 估计高温金属温度的方法
    • JP2003004548A
    • 2003-01-08
    • JP2001183595
    • 2001-06-18
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • TORIGOE TAIJIAOKI SUNAOOKADA IKUOOGUMA HIDETAKA
    • G01K11/00F01D25/00F02C9/00G01N33/20
    • PROBLEM TO BE SOLVED: To enable to estimate a metal temperature in order to estimate the time of deterioration of a high-temperature member.
      SOLUTION: In the method of estimating a metal temperature of a high- temperature member which comprises a bonding layer of a Ni-based metal or a Co-based metal, an oxidation-resistant layer, and a ceramic layer formed in this order on a matrix, the method of estimating a temperature of the high- temperature member estimates the metal temperature of the high-temperature member from the thickness of an oxidized scale formed on an actual device using a relationship among a thickness of an oxidized scale on the surface of the high-temperature member, temperature, and time determined based on a specimen having the same composition as that of the high-temperature member.
      COPYRIGHT: (C)2003,JPO
    • 要解决的问题:为了估计金属温度以估计高温部件的劣化时间。 解决方案:在估计包括Ni基金属或Co基金属,抗氧化层和陶瓷层的接合层的高温部件的金属温度估计方法中, 矩阵,估计高温部件的温度的方法使用实际装置上形成的氧化皮的厚度,使用氧化皮的表面上的氧化皮的厚度之间的关系来估计高温部件的金属温度 基于具有与高温部件相同组成的试样确定的高温部件,温度和时间。
    • 18. 发明专利
    • Mold for precision casting and method for producing the same
    • 用于精密铸造的模具及其制造方法
    • JP2014076458A
    • 2014-05-01
    • JP2012224614
    • 2012-10-09
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • OGUMA HIDETAKAMORI KAZUTAKAOKADA IKUOSHIMOHATA SACHIO
    • B22C9/04
    • B22C9/043B22C1/00B22C9/04B22C9/10
    • PROBLEM TO BE SOLVED: To provide a mold for precision casting which generates no deformation even when held at a high temperature for a long time, for example, in the manufacture of a unidirectional solidified blade or the like, and to provide a method for producing the same.SOLUTION: There is provided a mold for precision casting which has a core having a shape corresponding to a cavity inside a casting and an outer mold having a shape corresponding to the outer peripheral surface of the casting, wherein the outer mold is formed on the inner peripheral surface, is composed of monodispersed alumina ultrafine particles having a particles diameter of 1.0 μm or less and a silica sol and comprises: a prime layer (first dried film) 101A composed of a slurry film obtained by drying using a mold slurry for precision casting which is a mullite in sintering; slurry layers 102 which are formed outside the prime layer (first dried film) 101A and are composed of the mold slurry for precision casting; and a multi-layered back-up layer 105A which is obtained by forming a back-up layer (second dried film) 104-1 a plurality of times which is formed by drying stucco layers 103 in which a stucco material is adhered to the slurry layers.
    • 要解决的问题:为了提供即使在长时间保持高温时也不产生变形的精密铸造用模具,例如在制造单向凝固叶片等时,提供一种制造方法 同样。提供了一种精密铸造用模具,其具有与铸件内的型腔相对应的形状的芯体和具有与铸件外周面对应的形状的外模具,其中,形成外模具 在内周面上由粒径为1.0μm以下的单分散氧化铝超微粒子和二氧化硅溶胶构成,包括:由使用模具浆料干燥得到的浆料膜构成的初级层(第一干燥膜)101A 用于精密铸造,其是烧结中的莫来石; 浆料层102,其形成在初始层(第一干燥膜)101A的外侧,并且由用于精密铸造的模具浆料构成; 以及多层备用层105A,其通过多次形成后备层(第二干燥膜)104-1而获得,所述多层后处理层通过干燥其上附着灰泥材料的灰泥层103而形成 层。
    • 20. 发明专利
    • Method of manufacturing hollow structural member and combustor having hollow structural member
    • 具有中空结构构件的中空结构构件和混凝土制造方法
    • JP2013029077A
    • 2013-02-07
    • JP2011165698
    • 2011-07-28
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • TANEIKE MASAKIOKADA IKUOOGUMA HIDETAKAHASEGAWA TSUGUOFUJII TOSHIO
    • F02C7/00B22D23/00B23P13/00F01D25/00F02C7/18F23R3/42
    • PROBLEM TO BE SOLVED: To provide a method of manufacturing a hollow structural member and a combustor having the hollow structural member, capable of shortening a manufacturing time, and capable of improving workability.SOLUTION: This method of manufacturing an inner cylinder having a cooling hole 4 includes a bent plate installation preparing process S1 and a bent plate installation process S2 of installing a bent plate 10 bent to extend along the surface of a thin plate 22 and project from the surface, on the surface of the thin plate, a metal flame-spraying process S3 of manufacturing the hollow structural member 20 by forming a plane 23 on the surface of the thin plate 22 by flame-spraying molten metal M to the bent plate 10 arranged on the surface of the thin plate 22, and a cylinder shape forming process S4 of forming the hollow structural member 20 in a cylindrical shape.
    • 解决的问题:提供一种制造具有中空结构构件的中空结构构件和燃烧器的方法,能够缩短制造时间,并且能够提高加工性。 解决方案:制造具有冷却孔4的内筒的方法包括弯曲板安装准备过程S1和弯曲板安装过程S2,弯曲板安装过程S2安装弯曲的板10,沿着薄板22的表面弯曲, 从表面突出的薄板表面,通过在薄板22的表面上形成平面23,通过将熔融金属M火焰喷射到弯曲部分而制造中空结构部件20的金属火焰喷涂工艺S3 布置在薄板22的表面上的板10以及将中空结构构件20形成为圆筒形的圆筒形状形成处理S4。 版权所有(C)2013,JPO&INPIT