The effect of material condition and grain boundary (GB) carbides on stress corrosion crack (SCC) initiation was evaluated on a cold-worked Alloy 600 heat in the solution annealed and thermally treated conditions. SCC initiation response of these material conditions were investigated by constant load testing in simulated pressurized water reactor primary coolant environments. Direct current potential drop technique was used for in-situ detection of SCC initiation. With periodic examination of the specimens, evolution of precursor damage including intergranular attack and short cracks was carefully documented and compared to data previously obtained from unstressed coupons with the same material conditions and were exposed to the same environment. Results revealed a predominant role of mechanical factors in the development of precursor damage with no apparent improvement of GB carbides on SCC initiation resistance.
Revised: March 19, 2020 |
Published: September 30, 2019
Citation
Zhai Z., M.B. Toloczko, and S.M. Bruemmer. 2019.Effect of Material Condition on Stress Corrosion Crack Initiation of Cold-Worked Alloy 600 in Simulated PWR Primary Water. In 19th International Conference on Environmental Degradation of Materials in Nuclear Power Systems - Water Reactors, (EnvDeg 2019), Sugust 18-22, 2019, Boston, MA, 539-550. La Grange Park, Illinois:American Nuclear Society.PNNL-SA-143462.