Impact of Thermomechanical Aging on Alloy 625 High Temperature Mechanical Properties

We have investigated the susceptibility of selected solid-solution-strengthened Ni-base alloys of commercial grades to precipitating intermetallic compounds during aging at elevated temperatures and the corresponding effects on mechanical properties. Depending upon the exact chemical composition and aging temperature as well as the precipitate morphology, some alloys are found to be susceptible to precipitating detrimental intermetallics, particularly Ni 3 Mo, Ni 4 Mo, mu, sigma, d Ni 3 Nb and Laves phase. However, in some cases, it is found that certain intermetallics can produce a good combination of strength and ductility such as the Ni 2 (Mo, Cr) with Pt 2 Motype superlattice as well as the c 00 phase of Ni 3 Nb with DO 22-type superlattice. Also, it is demonstrated that in some cases, small addition of an alloying element such as Fe to a given alloy can decelerate the kinetics of forming detrimental intermetallic compounds; however, a similar addition to another alloy can produce an opposite effect.

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Stress rupture embrittlement in cast Ni-based superalloy 625

Pavan

Narayan

Swamy

et al. 2020

Materials Science and Engineering: A

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Impact of Thermomechanical Aging on Alloy 625 High Temperature Mechanical Properties

Cited by 3 publications

References 24 publications

Inconel 625 by Direct Metal Laser Sintering: Effects of the Process Parameters and Heat Treatments on Microstructure and Hardness

Inconel 625 by Direct Metal Laser Sintering: Effects of the Process Parameters and Heat Treatments on Microstructure and Hardness

On the Precipitation of Intermetallic Compounds in Selected Solid-Solution-Strengthened Ni-Base Alloys and Their Effects on Mechanical Properties

Stress rupture embrittlement in cast Ni-based superalloy 625

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