Affiliation:
1. Institut Laue-Langevin
2. University of Limerick
Abstract
Experimental errors in neutron residual strain imaging are often underestimated, mis-understood or simply ignored. The choice of beam defining optics can play a large role in the magnitude of these errors. In this paper we show that the use of a traditional slit beam defining system with large specimens can lead to several sources of errors. Large specimens usually require necessarily large distances between the slits and the instrument reference point (gauge volume). At large distances, the slit system can lead to significant underestimation of the residual strain magnitude as well as poor definition of the gauge volume.
We show that for large specimens, the use of radial focussing collimators reduces these effects, leading to significant improvement in measurement reliability. Specifically, we show application of radial collimators at the SALSA instrument of the Institut Laue Langevin neutron source in Grenoble, France.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference6 articles.
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2. CEN/TC 138: Standard Test Method For Determining Residual Stresses By Neutron Diffraction, (2003).
3. First Impressions of SALSA: The New Engineering Instrument at ILL. D. J. Hughes, G. Bruno, T. Pirling and P. J. Withers. Neutron News 17: 3, 28-32 (2006).
4. T. Pirling, G. Bruno, and P.J. Withers, SALSA - A New Instrument for Strain Imaging in Engineering Materials & Components. Mat. Sci. Eng. A, Vol. 437 (1), (2006), pp.139-144.
5. T. Pirling, Neutron strain scanning at interfaces: Optimized beam optics to reduce the surface effect; Materials Science Forum Vols. 347-349 (2000) pp.206-211.
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