STUDY OF TCP PHASE PRECIPITATING IN GH4199 SUPERALLOY  被引量:4

STUDY OF TCP PHASE PRECIPITATING IN GH4199 SUPERALLOY

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作  者:T.Cui Y.S.Zhang S.W.Guo L.Wang H.C.Yang 

机构地区:[1]SchoolofMaterialsandMetallurgy,NortheasternUniversity,Shenyang110004,ChinaManuscriptreceived15July2003 [2]inrevisedform19January2004

出  处:《Acta Metallurgica Sinica(English Letters)》2004年第5期645-650,共6页金属学报(英文版)

摘  要:The precipitating regulation and mechanism of TCP phase (μ phase and σ phase) are studied, using electron hole number (EHN) theory, phase analysis technology and TEM observation. The results indicate that the EHN in studied alloy is 2.311-2.348 which is higher than that of critical EHN of μ phase precipitate (2.30), so μ phase could precipitate if there is enough thermo-exposition. In contrast, the calculated EHN is less than that of critical EHN of σ phase precipitate (2.52). However the σ phase is also observed by TEM. Enrich of Cr and Mo around γ phase after γ′phase precipitated leads to σ phase precipitated.The precipitating regulation and mechanism of TCP phase (μ phase and σ phase) are studied, using electron hole number (EHN) theory, phase analysis technology and TEM observation. The results indicate that the EHN in studied alloy is 2.311-2.348 which is higher than that of critical EHN of μ phase precipitate (2.30), so μ phase could precipitate if there is enough thermo-exposition. In contrast, the calculated EHN is less than that of critical EHN of σ phase precipitate (2.52). However the σ phase is also observed by TEM. Enrich of Cr and Mo around γ phase after γ′phase precipitated leads to σ phase precipitated.

关 键 词:SUPERALLOY TCP phase electron hole number 

分 类 号:TG132.33[一般工业技术—材料科学与工程]

 

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