ＣＭＳＸ４のクリープ強度におよぼす時効熱処理の影響

Abstract

In single crystals of Ni-based superalloys, the γ' precipitate size has been shown to affect both the tensile strength and the creep behavior at intermediate temperatures. The microstructure of Ni-based superalloys contains primary cuboidal γ' particles that precipitate during aging treatment, and cooling γ' particles that precipitate during cooling from the aging temperature. In the Ni-based superalloy containing a high volume fraction of γ' precipitates, the change in the morphology of the secondary γ' precipitates in a matrix channel has been found to affect the creep strength. In this study, three kinds of aged specimens were prepared to investigate the influence of the morphology of γ' precipitates on the strengths of CMSX4 alloy. Slow furnace cooling from the aging temperature was employed to obtain a clean matrix channel completely devoid of secondary γ' precipitates. In order to clarify the effect of secondary γ' precipitates, the strengths of the furnace-cooled specimens were compared with those of the forced-airquenched specimens containing numerous superfine γ' precipitates in the matrix channel, and those of the standard two-step-aged specimens. The purpose of the present investigation is to gain a better understanding of the effect of precipitation heat treatment on the material strengths at an intermediate temperature, where the secondary γ' precipitates remain undissolved during creep deformation.