The residual stress instrument with optimized Si(2 2 0) monochromator and position-sensitive detector at HANARO

The residual stress instrument with optimized Si(2 2 0) monochromator and position-sensitive detector at HANARO

An upgraded residual stress instrument at the HANARO reactor of the KAERI is described. A horizontally focusing bent perfect crystal Si(2 2 0) monochromator (instead of a mosaic vertical focusing Ge monochromator) is installed in a drum with a tunable (2 θ M=0–60°) take-off angle/wavelength. A speci...

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Bibliographic Details
Published in:Nuclear instruments & methods in physics research. Section A, Accelerators, spectrometers, detectors and associated equipment Vol. 545; no. 1; pp. 480 - 489
Main Authors: Lee, Chang-Hee, Moon, Myung-Kook, Em, Vyacheslav T., Choi, Young-Hyun, Cheon, Jong-Kyu, Nam, Uk-Won, Kong, Kyung-Nam
Format: Journal Article
Language:English
Published: Elsevier B.V 11-06-2005
Subjects:
Bent perfect silicon crystal
Monochromator
Neutron diffraction
Position-sensitive detector
Residual stress measurement
VAMAS
Position-sensitive detector
07.85.Jy
Neutron diffraction
Bent perfect silicon crystal
Monochromator
Residual stress measurement
61.12.Ld
VAMAS
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Summary:An upgraded residual stress instrument at the HANARO reactor of the KAERI is described. A horizontally focusing bent perfect crystal Si(2 2 0) monochromator (instead of a mosaic vertical focusing Ge monochromator) is installed in a drum with a tunable (2 θ M=0–60°) take-off angle/wavelength. A specially designed position-sensitive detector (60% efficiency for λ = 1.8 A ) with 200 mm (instead of 100 mm) high-active area is used. There are no Soller type collimators in the instrument. The minimum possible monochromator to sample distance, L MS = 2 m , and sample to detector distance, L SD = 1.2 m , were found to be optimal. The new PSD and bent Si(2 2 0) monochromator combined with the possibility of selecting an appropriate wavelength resulted in about a ten-fold gain in data collection rate. The optimal reflections of austenitic and ferritic steels, aluminum and nickel for stress measurements with a Si(2 2 0) monochromator were chosen experimentally. The ability of the instrument to make strain measurements deep inside the austenitic and ferritic steels has been tested. For the chosen reflections and wavelengths, no shift of peak position (apparent strain) was observed up to 56 mm length of path.
ISSN:0168-9002
1872-9576
DOI:10.1016/j.nima.2005.01.337