High-Temperature Deformation of Inconel 718PlusTM

Abstract: Since its introduction in 2003, alloy 718PlusTM spurred a lot of interest owing to its increased maximum service temperature over conventional Inconel 718 (704 °C versus 650 °C), good formability, and weldability together with its moderate cost. Understanding the high-temperature deformation characteristics and microstructural evolution is still of interest to many. It is known that the service performance and hot-flow behavior of this alloy are a strong function of the microstructure, particularly the grain s… Show more

“…Indispensable alloying elements such as Nb, Mo, and Ti can result in a serious microsegregation during solidification [1,2] of Inconel 718 superalloy [3][4][5][6], which is one of the most used nickel-based superalloys in the world for high-temperature service applications [7][8][9][10][11][12].…”

Estimation of homogenisation time for superalloys based on a new diffusional model

“…Indispensable alloying elements such as Nb, Mo, and Ti can result in a serious microsegregation during solidification [1,2] of Inconel 718 superalloy [3][4][5][6], which is one of the most used nickel-based superalloys in the world for high-temperature service applications [7][8][9][10][11][12].…”

Estimation of homogenisation time for superalloys based on a new diffusional model

Precipitate coarsening and its effects on the hot deformation behavior of the recently developed γ'-strengthened superalloys

Microstructural evolution of a new Ni-Fe-based superalloy deformed by creep