Suppression of irradiation hardening in nanoscale V/Ag multilayers

Suppression of irradiation hardening in nanoscale V/Ag multilayers

Nanoindentation was used to measure hardness before and after room temperature He ion implantation on sputter-deposited V/Ag multilayers of different layer thickness as well as pure Ag and V. The radiation-induced hardening was found to decrease with decreasing individual layer thickness. No change...

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Veröffentlicht in:Acta materialia 2011-09, Vol.59 (16), p.6331-6340
Hauptverfasser: Wei, Q.M., Li, N., Mara, N., Nastasi, M., Misra, A.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Bubbles
Dislocation
Exact sciences and technology
Hardening
Hardness
Mathematical models
Metals. Metallurgy
Multilayers
Nanocomposites
Nanoindentation
Nanostructure
nuclear (including radiation effects), defects, mechanical behavior, materials and chemistry by design, synthesis (novel materials), synthesis (scalable processing)
Silver
Transmission electron microscopy
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Zusammenfassung:Nanoindentation was used to measure hardness before and after room temperature He ion implantation on sputter-deposited V/Ag multilayers of different layer thickness as well as pure Ag and V. The radiation-induced hardening was found to decrease with decreasing individual layer thickness. No change in hardness after implantation was measured in multilayers with a layer thickness of less than 10nm, which is of the order of the average spacing of He bubbles. The pure V films exhibit significant hardening due to a dense distribution of 0.8nm diameter He bubbles, but in the nanocrystalline pure Ag films bubbles grow to a diameter of approximately 20nm and become ineffective in causing hardening. A model describing layer-thickness-dependent radiation hardening in multilayers was developed by extending the Friedel model to take into account the layer thickness and the He bubble spacing.
ISSN:1359-6454
1873-2453
DOI:10.1016/j.actamat.2011.06.043