Compatibility of selected superalloys with molten LiF-CaF₂ salt

Author

Cotton, J.D. ; Sedgwick, L.M.

Author_Institution

Boeing Aerosp. & Electron., Seattle, WA, USA

fYear

1989

fDate

6-11 Aug 1989

Firstpage

917

Abstract

A solar dynamic heat receiver incorporating thermal energy storage is being designed and will be fabricated and tested to advance this technology for use on the US Space Station Freedom. Corrosion testing conducted to determine the most compatible materials for this application is described. Several high-temperature alloys have been tested for compatibility with molten static LiF-CaF₂ at 871°C. The alloys displayed good resistance to corrosion by the salt in a vacuum environment. Inconel 617 displayed the least reaction while Haynes 188 was subject to very slight intergranular attack. Several different metal felts were also tested, and no visible signs of interaction were detected

Keywords

calcium compounds; lithium compounds; solar energy conversion; space vehicle power plants; superalloys; thermal energy storage; 871 degC; Haynes 188; Inconel 617; US Space Station Freedom; corrosion testing; intergranular attack; molten LiF-CaF₂; solar dynamic heat receiver; superalloys; thermal energy storage; Aerodynamics; Aerospace testing; Fabrication; Heat engines; Heat transfer; Materials testing; Phase change materials; Solar heating; Space stations; Temperature;

fLanguage

English

Publisher

ieee

Conference_Titel

Energy Conversion Engineering Conference, 1989. IECEC-89., Proceedings of the 24th Intersociety

Conference_Location

Washington, DC

Type

conf

DOI

10.1109/IECEC.1989.74578

Filename

74578

Compatibility of selected superalloys with molten LiF-CaF2 salt

Cotton, J.D. ; Sedgwick, L.M.

conf

Compatibility of selected superalloys with molten LiF-CaF₂ salt