The conventional contour method determines one component of residual stress over the cross section of a part. The part is cut into two, the contour (topographic shape) of the exposed surface is measured, and Bueckner’s superposition principle is analytically applied to calculate stresses. In this paper, the contour method is extended to the measurement of multiple residual-stress components by making multiple cuts with subsequent applications of superposition. The theory and limitations are described. The theory is experimentally tested on a 316L stainless steel disk with residual stresses induced by plastically indenting the central portion of the disk. The multiple-cut contour method results agree very well with independent measurements using neutron diffraction and with a computational, finite-element model of the indentation process.
PAGLIARO, P., PRIME, M.B., SWENSON, H., ZUCCARELLO, B. (2010). MEASURING MULTIPLE RESIDUAL-STRESS COMPONENTS USING CONTOUR METHOD AND MULTIPLE CUTS. EXPERIMENTAL MECHANICS, 2010(n. 2, February 2010), 187-194 [10.1007/s11340-009-9280-3].
MEASURING MULTIPLE RESIDUAL-STRESS COMPONENTS USING CONTOUR METHOD AND MULTIPLE CUTS
PAGLIARO, Pierluigi;ZUCCARELLO, Bernardo
2010-01-01
Abstract
The conventional contour method determines one component of residual stress over the cross section of a part. The part is cut into two, the contour (topographic shape) of the exposed surface is measured, and Bueckner’s superposition principle is analytically applied to calculate stresses. In this paper, the contour method is extended to the measurement of multiple residual-stress components by making multiple cuts with subsequent applications of superposition. The theory and limitations are described. The theory is experimentally tested on a 316L stainless steel disk with residual stresses induced by plastically indenting the central portion of the disk. The multiple-cut contour method results agree very well with independent measurements using neutron diffraction and with a computational, finite-element model of the indentation process.
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