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Mapping of Strain Tensor Components in Polycrystalline Samples using EBSD.

Published online by Cambridge University Press:  27 May 2014

David J Dingley ,
Graham Meaden ,
Seiichi Suzuki  and
Tatsuya Fukino
David J Dingley
Affiliation:
H.H.Wills Physics Laboratory, University of Bristol, Tyndall Ave. Bristol BS18 1TL, UK.
Graham Meaden
Affiliation:
BLG Productions Ltd. 3 Sydenham Rd. Cotham, Bristol BS6 5SH, UK.
Seiichi Suzuki
Affiliation:
TSL Solution 252-0131 Sagamihara Midori-ku, Nishihashimoto 5-4-30 SIC2-401 Japan
Tatsuya Fukino
Affiliation:
TSL Solution 252-0131 Sagamihara Midori-ku, Nishihashimoto 5-4-30 SIC2-401 Japan
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Abstract

The advance in Electron Backscatter Diffraction known as High Resolution EBSD has permitted the strain tensor components and neighbour disorientation measurements to be mapped at resolutions better than 2 parts in 10000. Following earlier research into this technique which was focused on verifying the sensitivity and accuracy of the measurements, recent studies have involved investigations on semiconductor and metallic polycrystalline materials. In particular observations of localized regions where residual strains exceeded the macroscopic yield stress have been thoroughly investigated to eliminate experimental error as a possible explanation. No such cause was found. Strain measurements on polycrystalline steels in uniaxial tension and during thermal stress relieving thermal treatment have also been carried out. Maps of the strain distribution during elastic loading and early stages of plastic flow showed hot spots of high strain as in the static tests but overall the measured elastic strain was equal to the applied strain.

Keywords

stress/strain relationshipelectron microprobepolycrystal
Type
Articles
Information
MRS Online Proceedings Library (OPL) , Volume 1664: Symposium YY – Elastic Strain Engineering for Unprecedented Materials Properties , 2014 , mrsf13-1664-yy07-09
Copyright
Copyright © Materials Research Society 2014 

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References

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