Thermal-Mechanical Fatigue Property of Ni-Base Single Crystal Superalloys TMS-82+ and TMS-75
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概要
- 論文の詳細を見る
- Japan Institute of Metalsの論文
- 2004-02-20
著者
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Zhou Hao
Materials Laboratory National Institute For Materials Science(nims)
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Okada Ikuo
Takasago Research And Development Center Mitubishi Heavy Industries Ltd.
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HARADA Hiroshi
Materials Eng. Lab., High Temperature Materials Group, National Inst. for Materials Sci.
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YOKOKAWA Tadaharu
Materials Eng. Lab., High Temperature Materials Group, National Inst. for Materials Sci.
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RO Yoshikazu
Materials Laboratory, National Institute for Materials Science(NIMS)
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KOIZUMI Yutaka
Materials Laboratory, National Institute for Materials Science(NIMS)
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KOBAYASHI Toshiharu
Materials Laboratory, National Institute for Materials Science(NIMS)
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Ro Yoshikazu
Materials Laboratory National Institute For Materials Science(nims)
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Koizumi Yutaka
Materials Laboratory National Institute For Materials Science(nims)
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Yokokawa Tadaharu
Materials Eng. Lab. High Temperature Materials Group National Inst. For Materials Sci.
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Yokokawa Tadaharu
Materials Laboratory National Institute For Materials Science(nims)
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Kobayashi Toshiharu
Materials Laboratory National Institute For Materials Science(nims)
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Harada Hiroshi
Materials Laboratory National Institute For Materials Science(nims)
関連論文
- Effects of the Coordinates Planes Crystal Orientation on the Structural Strength of Single-Crystal Turbine Vanes and Blades
- Effects of the Cross-Sectional In-Plane Crystal Orientation on the Structural Strength of Single-Crystal Turbine Vanes
- Thermal-Mechanical Fatigue Property of Ni-Base Single Crystal Superalloys TMS-82+ and TMS-75
- A New Co-Base Superalloy Strengthened by γ' Phase
- GT-Related Research at National Research Institute for Metals(Letters from R&D Groups)
- OS-403 Design of Single Crystal Superalloys for Industrial Gas Turbines(Organized Session 4: Advanced Materials and Coatings)
- Development of High Strength New Ni-base Single-Crystal Superalloy, TMS-82+
- SB-11-5(122) Creep Behavior of a New Ni-base Single-crystal Superalloy, TMS-82+(Microstructure & Crack Propagation of Superalloys)
- Atom Probe Investigation of Ruthenium Distributions around Rhenium, Molybdenum and Tungsten in a Gamma Phase of 5th-Generation Nickel-Base Single-Crystal Superalloys
- Evaluation of Yttria Applicability as a Crucible for Induction Melting of TiAl Alloy
- The Oxidation Characteristics of the γ-γ' Tie-Lime Alloys of a Nickel-Base Superalloy
- Cyclic Oxidation Behavior of Iridium-Modified Aluminide Coatings for Nickel-Base Single Crystal Superalloy TMS-75