TELESMAN J,KANTZOS P,GAYDA J,et al.Microstructural variables controlling time-dependent crack growth in a P/M superalloy[A].GREEN K A,POLLOCK T M,HARADA H,et al.Superalloy,2004[C].Warrendale:TMS,2004.215-224.
[6]
GAYDA J.Alloy10:A 1300°F Disk Alloy[R].Washington:NASA/TM-210810,2001.
[7]
GABB T P,TELESMAN J,KANTZOS P T,et al.Effect of high temperature exposure on fatigue life of disk[A].GREEN K A,POLLOCK T M,HARADA H,et al.Superalloy,2004[C].Warrendale:TMS,2004.269-274.
[8]
MOURER D P,WILLIAMS J L.Dual heat treat process development for advanced disk applications[A].GREEN K A,POLLOCK T M,HARADA H,et al.Superalloy,2004[C].Warrendale:TMS,2004.401-408.
[9]
GABB T P,ELLIS D L,KENNETH M,et al.Detailed microstructure characterization of the disk alloy ME3[R].Washington:NASA/TM-213066,2004.
[10]
MOURER D P,HURON E S,BAIN K B,et al.Superalloy optimized for high-temperature performance in high pressure turbine disk[P].US Patent:6521175B1,2003-02-18.
[11]
LOCQ D,CARON P,RAUJOL S,et al.On the role of tertiary γ'precipitates in the creep behaviour at 700℃ of a PM disk superalloy[A].GREEN K A,POLLOCK T M,HARADA H,et al.Superalloy,2004[C].Warrendale:TMS,2004.179-188.
[12]
GAYDA J.The effect of tungsten and niobium additions on disk alloy CH98[R].Washington:NASA/TM-212471,2003.
[13]
SCHIRRA J J,REYNOLDS P L,HURON E S,et al.Effect of microstructure (and heat treatment) on the 649℃ properties of advanced P/M Superalloy disk materials[A].GREEN K A,POLLOCK T M,HARADA H,et al.Superalloy,2004[C].Warrendale:TMS,2004.341-350.
GAYDA J,GABB T P,KANTZOS P T.Heat treatment devices and method of operation thereof to produced dual microstructure superalloy disks[P].US Patent:6660110B1,2003-12-09.
[17]
GAYDA J,GABB T P,KANTZOS P T.The effect of dual microstructure heat treatment on an advanced nickel-base disk alloy[A].GREEN K A,POLLOCK T M,HARADA H,et al.Superalloy,2004[C].Warrendale:TMS,2004.323-330.
