大连理工大学主页平台管理系统李鹏廷 Tensile and creep resistance improvement of GH4975 alloy for turbine discs via electron beam smelting layer solidification technology Home

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Tensile and creep resistance improvement of GH4975 alloy for turbine discs via electron beam smelting layer solidification technology

Release Time:2024-06-21 Hits:

Date of Publication: 2024-05-31

Journal: Materials Science and Engineering: A

Volume: 903

ISSN: 0921-5093

Key Words: Carbides; Creep; Creep properties; Creep resistance; Creep rupture life; Electron-beam; Electron beam melting; Electron-beam melting; Electron beam smelting layer solidification technology; Electrons; Extrusion; Fine structures; Gh4975 alloy; High purity; High strength alloys; Melting layers; Solidification; Superalloys; Tensile strength; Turbine disc

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Tensile and creep resistance improvement of GH4975 alloy for turbine discs via electron beam smelting layer solidification technology