It is commonly accepted that the drop in mechanical properties of INCONE1718(IN718) after long time exposure at high temperature is a result of coalescence of y", ?/ and the transformation of y" to 8-Ni3Nb p...It is commonly accepted that the drop in mechanical properties of INCONE1718(IN718) after long time exposure at high temperature is a result of coalescence of y", ?/ and the transformation of y" to 8-Ni3Nb phase. Besides the 7", ?/ and , the precipitation of B.C.C. -Cr is another factor that affects the mechanical properties of IN718. In this paper, the Thermal-Calc software is used to reveal the thermodynamic condition of -Cr formation. The calculated sections of the pseudo ternary diagrams of Cr-Nb-IN718 and Cr-Fe-IN718 explain why -Cr particles do not precipitate dispersedly in matrix but in the vicinity of phase. The selected area diffraction (SAD) of TEM confirms the crystallography relationship of -Crwith is (010) g// (-110) a.Cr, [100] s//[Hl] a-cr? In combination of TTT diagram with the Thermal-Calc and TEM results, the mechanism of -Cr formation in IN718 is suggested.展开更多
文摘It is commonly accepted that the drop in mechanical properties of INCONE1718(IN718) after long time exposure at high temperature is a result of coalescence of y", ?/ and the transformation of y" to 8-Ni3Nb phase. Besides the 7", ?/ and , the precipitation of B.C.C. -Cr is another factor that affects the mechanical properties of IN718. In this paper, the Thermal-Calc software is used to reveal the thermodynamic condition of -Cr formation. The calculated sections of the pseudo ternary diagrams of Cr-Nb-IN718 and Cr-Fe-IN718 explain why -Cr particles do not precipitate dispersedly in matrix but in the vicinity of phase. The selected area diffraction (SAD) of TEM confirms the crystallography relationship of -Crwith is (010) g// (-110) a.Cr, [100] s//[Hl] a-cr? In combination of TTT diagram with the Thermal-Calc and TEM results, the mechanism of -Cr formation in IN718 is suggested.
