Exploring specimen size effects in plastic deformation of Ni3(Al, Ta)

Michael D. Uchic; Dennis M. Dimiduk; Jeffrey N. Florando; William D. Nix

doi:10.1557/PROC-753-BB1.4

Abstract

In this paper we present a mechanical test methodology to explore specimen size effects in Ni3Al, where the overall test sample dimensions artificially limit the volume for substructure evolution and hence the availability of jogs/kinks along individual dislocation lines. The test methodology consists of using Focused Ion Beam milling to micromachine cylindrical compression samples that have diameters ranging from 5 to 20 microns into the surface of a bulk sample, which is followed by nanoindentation using a flat-ended tip to measure the mechanical properties of the microsamples in uniaxial compression. The initial test results show that there is a strong increase in the flow stress with decreasing sample size, although misfit between the flat indenter tip and the top surface of the compression samples complicates complete interpretation of the mechanical test results at this time.

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Exploring specimen size effects in plastic deformation of Ni3(Al, Ta)

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Exploring specimen size effects in plastic deformation of Ni3(Al, Ta)

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