Interpreting the ductility of nanocrystalline metals

Nanocrystalline (NC) metals are known for having excellent strength but perceived to have poor ductility. Miniature tensile tests on NC Ni-Fe measured ultimate strengths of 2 GPa and elongations, by digital image correlation, of up to 10%. Detailed examination of the fracture surface revealed dimple...

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Veröffentlicht in:	Journal of materials research 2013-06, Vol.28 (12), p.1539-1552
Hauptverfasser:	Sharon, John A., Padilla II, Henry A., Boyce, Brad L.
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Sprache:	eng
Schlagworte:	Applied and Technical Physics Biomaterials Ductility Inorganic Chemistry Invited Feature Paper Materials Engineering Materials Science Nanotechnology
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creator	Sharon, John A. Padilla II, Henry A. Boyce, Brad L.
description	Nanocrystalline (NC) metals are known for having excellent strength but perceived to have poor ductility. Miniature tensile tests on NC Ni-Fe measured ultimate strengths of 2 GPa and elongations, by digital image correlation, of up to 10%. Detailed examination of the fracture surface revealed dimpled rupture and cross-section reduction up to 75%, suggesting an intrinsic ability for small grained Ni-Fe to accommodate plasticity. A survey of published studies on NC metals reveals that this behavior is quite common; despite low macroscopic elongation, NC metals often achieve extensive deformation suggesting good intrinsic ductility. Unfortunately, the common sheet-like configuration of NC tensile specimens muddies a simple evaluation of ductility based on elongation, since thin and wide geometries promote localized necking that expedites catastrophic failure. This paper presents a compact review of ductility concepts and literature to interpret the experimental ductility measurements of an electrodeposited nickel alloy.
doi_str_mv	10.1557/jmr.2013.139
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Miniature tensile tests on NC Ni-Fe measured ultimate strengths of 2 GPa and elongations, by digital image correlation, of up to 10%. Detailed examination of the fracture surface revealed dimpled rupture and cross-section reduction up to 75%, suggesting an intrinsic ability for small grained Ni-Fe to accommodate plasticity. A survey of published studies on NC metals reveals that this behavior is quite common; despite low macroscopic elongation, NC metals often achieve extensive deformation suggesting good intrinsic ductility. Unfortunately, the common sheet-like configuration of NC tensile specimens muddies a simple evaluation of ductility based on elongation, since thin and wide geometries promote localized necking that expedites catastrophic failure. 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subjects	Applied and Technical Physics Biomaterials Ductility Inorganic Chemistry Invited Feature Paper Materials Engineering Materials Science Nanotechnology
title	Interpreting the ductility of nanocrystalline metals
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