Size effects on yield instabilities in nickel

Megan J. Cordill; Neville R. Moody; William W. Gerberich

doi:10.1557/proc-976-0976-ee09-05

Size effects on yield instabilities in nickel

Megan J. Cordill, Neville R. Moody, William W. Gerberich

Chemical Engineering and Materials Science

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

2 Scopus citations

Abstract

Dislocation events are seen as excursions, or pop-in events, in the load-displacement trace of nanoindentation experiments. When indenting single crystal metals these events occur frequently during quasi-static and dynamic loading. A single crystal of Ni (111) has been indented quasi-statically using three different loading rates (10, 100, and 1000 μN/s) as well as with three different radii diamond indenter tips (1000 nm cone, 300 nm Berkovich, and 50 nm cube corner) to examine the occurrences of excursions. As expected, excursions at higher loads have larger displacements, and that initial loading follows Hertzian behavior up to the point of yield. Also, as the tip size is reduced the excursion loads are reduced. The excursion events depend mostly on the statistical distribution of surface sources and substructure dislocation arrangements.

Original language	English (US)
Title of host publication	Size Effects in the Deformation of Materials
Subtitle of host publication	Experiments and Modeling
Publisher	Materials Research Society
Pages	67-72
Number of pages	6
ISBN (Print)	9781604234244
DOIs	https://doi.org/10.1557/proc-976-0976-ee09-05
State	Published - 2006
Event	2006 MRS Fall Meeting - Boston, MA, United States Duration: Nov 27 2006 → Dec 1 2006

Publication series

Name	Materials Research Society Symposium Proceedings
Volume	976
ISSN (Print)	0272-9172

Other

Other	2006 MRS Fall Meeting
Country/Territory	United States
City	Boston, MA
Period	11/27/06 → 12/1/06

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Size effects on yield instabilities in nickel. / Cordill, Megan J.; Moody, Neville R.; Gerberich, William W.
Size Effects in the Deformation of Materials: Experiments and Modeling. Materials Research Society, 2006. p. 67-72 (Materials Research Society Symposium Proceedings; Vol. 976).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Cordill, MJ, Moody, NR & Gerberich, WW 2006, Size effects on yield instabilities in nickel. in Size Effects in the Deformation of Materials: Experiments and Modeling. Materials Research Society Symposium Proceedings, vol. 976, Materials Research Society, pp. 67-72, 2006 MRS Fall Meeting, Boston, MA, United States, 11/27/06. https://doi.org/10.1557/proc-976-0976-ee09-05

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abstract = "Dislocation events are seen as excursions, or pop-in events, in the load-displacement trace of nanoindentation experiments. When indenting single crystal metals these events occur frequently during quasi-static and dynamic loading. A single crystal of Ni (111) has been indented quasi-statically using three different loading rates (10, 100, and 1000 μN/s) as well as with three different radii diamond indenter tips (1000 nm cone, 300 nm Berkovich, and 50 nm cube corner) to examine the occurrences of excursions. As expected, excursions at higher loads have larger displacements, and that initial loading follows Hertzian behavior up to the point of yield. Also, as the tip size is reduced the excursion loads are reduced. The excursion events depend mostly on the statistical distribution of surface sources and substructure dislocation arrangements.",

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AB - Dislocation events are seen as excursions, or pop-in events, in the load-displacement trace of nanoindentation experiments. When indenting single crystal metals these events occur frequently during quasi-static and dynamic loading. A single crystal of Ni (111) has been indented quasi-statically using three different loading rates (10, 100, and 1000 μN/s) as well as with three different radii diamond indenter tips (1000 nm cone, 300 nm Berkovich, and 50 nm cube corner) to examine the occurrences of excursions. As expected, excursions at higher loads have larger displacements, and that initial loading follows Hertzian behavior up to the point of yield. Also, as the tip size is reduced the excursion loads are reduced. The excursion events depend mostly on the statistical distribution of surface sources and substructure dislocation arrangements.

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Size effects on yield instabilities in nickel

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