Effect of dislocation density on improved radiation hardening resistance of nano-structured tungsten-rhenium

Materials Science and Engineering: A

Volumn 611, Issue , 2014, Pages 388-393

  Armstrong, David E J ^a   Britton, T B ^a,b  

^a UNIVERSITY OF OXFORD   (United Kingdom)

^b IMPERIAL COLLEGE LONDON   (United Kingdom)

Author keywords

EBSD; Ion implantation; Nanoindentation; Nuclear fusion; Tungsten rhenium

Indexed keywords

ANNEALING; HARDENING; HARDNESS; ION IMPLANTATION; MICROSTRUCTURE; RADIATION DAMAGE; RHENIUM; TUNGSTEN;

DISLOCATIONS DENSITIES; DISPLACEMENTS PER ATOMS; EBSD; EFFECT OF DISLOCATIONS; HIGH DISLOCATION DENSITY; IONS IMPLANTATION; NANO INDENTATION; NANO-STRUCTURED; NUCLEAR FUSION; TUNGSTEN-RHENIA;

NANOINDENTATION;

EID: 84903641440     PISSN: 09215093     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.msea.2014.06.013     Document Type: Article

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