Journal
MATERIALS TRANSACTIONS
Volume 46, Issue 9, Pages 2026-2029Publisher
JAPAN INST METALS
DOI: 10.2320/matertrans.46.2026
Keywords
interstitial-free steel; nanoindentation; load-displacement curve; pop-in; grain boundary; hardness; dislocation
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Nanoindentation measurements are made on an interstitial-free steel to reveal the effect of single grain boundary on deformation behavior. Three different sites, on grain boundary, near grain boundary and grain interior, were probed to investigate the pop-in behavior on the initial loading curve and nanohardness. The typical pop-in load at the grain interior gives a maximum shear stress beneath the indenter as an order of ideal strength. The pop-in load at the on grain boundary is significantly smaller than that at the other sites, indicating that the grain boundary acts as an effective dislocation source with a lower applied shear stress. The nanohardness in the grain interior is about 20% lower than that at the other sites, suggesting that a single grain boundary has significant resistance to indentation-induced deformation.
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