Investigation of Microstructure and Nanoindentation Hardness of C+ & He+ Irradiated Nanocrystal SiC Coatings during Annealing and Corrosion

Abstract: The microstructure and nanoindentation hardness of unirradiated, irradiated, annealed and corroded SiC coatings were characterized. Irradiation of 400 keV C+ and 200 keV He+ with approximately 10 dpa did not cause obvious amorphous transformation to nanocrystal SiC coatings and induced helium bubbles with 2–3 nm dimension distributed uniformly in the SiC matrix. High temperature annealing resulted in the transformation of SiC nanocrystals into columnar crystals in the irradiated region. Line-shaped bubble band… Show more

“…The hardness, bend strength and indent fracture toughness of SiC were observed to increase with the formation of He clusters in SiC [6]. However, He bubbles produced at a higher He concentration cause significant decrease in material hardness [7,8]. The tensile properties are critical for the design and assessment of SiC components because of the complex stress fields in the reactor.…”

Atomistic simulation of brittle-to-ductile transition in silicon carbide embedded with nano-sized helium bubbles

“…The hardness, bend strength and indent fracture toughness of SiC were observed to increase with the formation of He clusters in SiC [6]. However, He bubbles produced at a higher He concentration cause significant decrease in material hardness [7,8]. The tensile properties are critical for the design and assessment of SiC components because of the complex stress fields in the reactor.…”

Atomistic simulation of brittle-to-ductile transition in silicon carbide embedded with nano-sized helium bubbles

Evolution of microstructure and mechanical properties of SiCf/SiC composites induced by He ions irradiation at various temperatures