Effects of a Range of Machined and Ground Surface Finishes on the Simulated Reactor Helium Corrosion of Several Candidate Structural Materials

摘要

This report discusses the corrosion behavior of several candidate reactor structural alloys in a simulated advanced high-temperature gas-cooled reactor (HTGR) environment over a range of lathe-machined and centerless-ground surface finishes. The helium environment contained 50 Pa H sub 2 /5 Pa CO/5 Pa CH sub 4 /<0.05 Pa H sub 2 O (500 mu atm H sub 2 /50 mu atm CO/50 mu atm CH sub 4 /<0.5 mu atm H sub 2 O) at 900 exp 0 C for a total exposure of 3000 h. The test alloys included two vacuum-cast superalloys (IN 100 and IN 713LC); a centrifugally cast austenitic alloy (HK 40); three wrought high-temperature alloys (Alloy 800H, Hastelloy X, and Inconel 617); and a nickel-base oxide-dispersion-strengthened alloy (Inconel MA 754). Surface finish variations did not affect the simulated advanced-HTGR corrosion behavior of these materials. Under these conditions, the availability of reactant gaseous impurities controls the kinetics of the observed gas-metal interactions. Variations in the near-surface activities and mobilities of reactive solute elements, such as chromium, which might be expected to be affected by changes in surface finish, do not seem to greatly influence corrosion in this simulated advanced HTGR environment. 18 figures, 4 tables. (ERA citation 06:015817)