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  Wang, X.L.; Liu, C.T.; Keiderling, U.; Stoica, A.D.; Yang, L.; Miller, M.K.; Fu, C.L.; Ma, D.; An, K.: Unusual thermal stability of nano-structured ferritic alloys. Journal of Alloys and Compounds 529 (2012), p. 96-101

10.1016/j.jallcom.2012.02.143

Abstract:
A scientific question vitally important to the materials community is whether there exist “self-assembled” nanoclusters that are thermodynamically stable at elevated temperatures. Using in situ neutron scattering, we have characterized the structure and thermal stability of a nano-structured ferritic alloy. Nanometer sized nanoclusters were found to persist up to ∼1400 ◦C, providing direct evidence of a thermodynamically stable alloying state for the nanoclusters. High-temperature neutron diffraction measurements show a stable ferritic matrix, with little evidence of recrystallization or grain growth at temperatures up to 1300 ◦C. This result suggests that thermally stable nanoclusters and the oxygenvacancy interaction limit the diffusion of Fe atoms and hence the mobility of grain boundaries, stabilizing the microstructure of the ferritic matrix at high temperatures.