Microstructural Investigation of Alloy 617 Creep-Ruptured in Pure Helium Environment at 950℃

A very high-temperature gas reactor (VHTR) is one of the next generation nuclear reactors owing to its safety, high energy efficiency, and proliferation-resistance. Heat is transferred from the primary helium loop to the secondary helium loop through an intermediate heat exchanger (IHX). Under VHTR environment Alloy 617 is being considered a candidate Ni-based superalloy for the IHX of a VHTR, owing to its good creep resistance, phase stability and corrosion resistance at high temperature. In this study, high-temperature corrosion tests were carried out at 850 -950 o C in air and impure helium environments. Alloy 617 specimens showed a parabolic oxidation behavior for all temperatures and environments. The activation energy for oxidation was 154 kJ/mol in helium environment, and 261 kJ/mol in an air environment. The scanning electron microscope (SEM) and energy-dispersive x-ray spectroscopy (EDS) results revealed that there were a Cr-rich surface oxide layer, Al-rich internal oxides and depletion of grain boundary carbide after corrosion test. The thickness and depths of degraded layers also showed a parabolic relationship with the time. A corrosion rate of 950 o C in impure helium was higher than that in an air environment, caused by difference in the outer oxide morphology.

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Microstructural Investigation of Alloy 617 Creep-Ruptured in Pure Helium Environment at 950℃

Cited by 2 publications

References 15 publications

Microstructural investigation of Alloy 617 corroded in high-temperature helium environment

Microstructural investigation of Alloy 617 corroded in high-temperature helium environment

High Temperature Corrosion of Alloy 617 in Impure Helium and Air for Very High-Temperature Gas Reactor

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