Creep Behavior of Compact γ′-γ″ Coprecipitation Strengthened IN718-Variant Superalloy

Abstract: The development of high-temperature heavy-duty turbine disk materials is critical for improving the overall efficiency of combined cycle power plants. An alloy development strategy to this end involves superalloys strengthened by ‘compact’ γ′-γ″ coprecipitates. Compact morphology of coprecipitates consists of a cuboidal γ′ precipitate such that γ″ discs coat its six {001} faces. The present work is an attempt to investigate the microstructure and creep behavior of a fully aged alloy exhibiting compact coprecip… Show more

“…[6,10,11] Some studies indicated that the δ phase on the grain boundaries may increase the creep resistance via grain boundary serration. [13,14] Desvallées et al investigated the influence of δ phase (amount, shape) on mechanical resistance. [15] They found that the δ phase has a detrimental effect on creep rupture life while no direct effect on LCF life was evident.…”

Tensile and Low‐Cycle Fatigue Behavior of Laser Powder Bed Fused Inconel 718 at Room and High Temperature

“…[6,10,11] Some studies indicated that the δ phase on the grain boundaries may increase the creep resistance via grain boundary serration. [13,14] Desvallées et al investigated the influence of δ phase (amount, shape) on mechanical resistance. [15] They found that the δ phase has a detrimental effect on creep rupture life while no direct effect on LCF life was evident.…”

Tensile and Low‐Cycle Fatigue Behavior of Laser Powder Bed Fused Inconel 718 at Room and High Temperature

Investigating Deformation Mechanisms in a Creep-Deformed 718-Variant Superalloy

Phase field modeling of shearing processes of a dual-lobed γ″|γ′|γ″ coprecipitate