Structures and energies of vacancy-Cu clusters in α-Fe
Author:
Publisher
American Physical Society (APS)
Link
http://harvest.aps.org/v2/journals/articles/10.1103/PhysRevB.67.024104/fulltext
Reference21 articles.
1. Recent progress in understanding reactor pressure vessel steel embrittlement
2. Characterization of neutron-induced copper-enriched clusters in pressure vessel steel weld: an APFIM study
3. Microstructural characterization of irradiation-induced Cu-enriched clusters in reactor pressure vessel steels
4. Atom probe characterization of the microstructure of nuclear pressure vessel surveillance materials after neutron irradiation and after annealing treatments
5. Irradiation-induced Cu aggregations in Fe: An origin of embrittlement of reactor pressure vessel steels
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1. Point defect induced segregation of alloying solutes in α-Fe;Journal of Nuclear Materials;2016-10
2. Effect of Cu on the boron segregation at grain boundaries and vacancy-type defects in ultra-low carbon micro-alloy steels;Science China Technological Sciences;2014-05-29
3. Vibrational contribution to the thermodynamics of nanosized precipitates: vacancy–copper clusters in bcc-Fe;Journal of Physics: Condensed Matter;2012-05-04
4. STUDY ON THE MICROSTRUCTURE EVOLUTION OF A508-3 STEEL UNDER PROTON IRRADIARION;Acta Metallurgica Sinica;2012
5. Nanoclusters in bcc-Fe containing vacancies, copper and nickel: Structure and energetics;Journal of Nuclear Materials;2011-11
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