Effect of macroscopic relaxation on residual stress analysis by diffraction methods

J. Repper; M. Hofmann; C. Krempaszky; B. Regener; E. Berhuber; W. Petry; E. Werner

doi:10.1063/1.4752877

Effect of macroscopic relaxation on residual stress analysis by diffraction methods

J. Repper, M. Hofmann, C. Krempaszky, B. Regener, E. Berhuber, W. Petry, E. Werner

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Abstract

To know the residual stress state within a component is essential for predicting its service life time. Neutron diffraction is a reliable tool for non-destructive determination of macroscopic residual stresses, even deep inside a component. One standard procedure in neutron residual stress analysis is to cut out small macrostress free coupons from the strained component, which serve as reference samples. Redistribution of intergranular stresses due to relaxation when the coupon is cut out, however, may lead to spurious macroscopic stresses. A quantitative study of the change of intergranular stresses shows that, contrary to conventional thought, even the {311} Bragg reflection is affected strongly by this phenomenon. In this case, the use of reference values calculated using boundary conditions of mechanical equilibrium enables to extract reliable macroscopic residual stress values.

Original language	English
Article number	064906
Journal	Journal of Applied Physics
Volume	112
Issue number	6
DOIs	https://doi.org/10.1063/1.4752877
State	Published - 15 Sep 2012

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title = "Effect of macroscopic relaxation on residual stress analysis by diffraction methods",

abstract = "To know the residual stress state within a component is essential for predicting its service life time. Neutron diffraction is a reliable tool for non-destructive determination of macroscopic residual stresses, even deep inside a component. One standard procedure in neutron residual stress analysis is to cut out small macrostress free coupons from the strained component, which serve as reference samples. Redistribution of intergranular stresses due to relaxation when the coupon is cut out, however, may lead to spurious macroscopic stresses. A quantitative study of the change of intergranular stresses shows that, contrary to conventional thought, even the \{311\} Bragg reflection is affected strongly by this phenomenon. In this case, the use of reference values calculated using boundary conditions of mechanical equilibrium enables to extract reliable macroscopic residual stress values.",

author = "J. Repper and M. Hofmann and C. Krempaszky and B. Regener and E. Berhuber and W. Petry and E. Werner",

note = "Funding Information: We gratefully acknowledge the Deutsche Forschungsgemeinschaft DFG for funding this research within Projects WE 2351/11-1 and PE 580/7-1. In addition, the authors thank the German neutron reactor FRM II for providing beam time at instruments STRESS-SPEC and SPODI. The authors want to acknowledge the instrument scientists of SPODI, M. H{\"o}lzel and A. Senyshyn, for their support during and after the powder diffraction measurement.",

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doi = "10.1063/1.4752877",

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AU - Repper, J.

AU - Hofmann, M.

AU - Krempaszky, C.

AU - Regener, B.

AU - Berhuber, E.

AU - Petry, W.

AU - Werner, E.

N1 - Funding Information: We gratefully acknowledge the Deutsche Forschungsgemeinschaft DFG for funding this research within Projects WE 2351/11-1 and PE 580/7-1. In addition, the authors thank the German neutron reactor FRM II for providing beam time at instruments STRESS-SPEC and SPODI. The authors want to acknowledge the instrument scientists of SPODI, M. Hölzel and A. Senyshyn, for their support during and after the powder diffraction measurement.

PY - 2012/9/15

Y1 - 2012/9/15

N2 - To know the residual stress state within a component is essential for predicting its service life time. Neutron diffraction is a reliable tool for non-destructive determination of macroscopic residual stresses, even deep inside a component. One standard procedure in neutron residual stress analysis is to cut out small macrostress free coupons from the strained component, which serve as reference samples. Redistribution of intergranular stresses due to relaxation when the coupon is cut out, however, may lead to spurious macroscopic stresses. A quantitative study of the change of intergranular stresses shows that, contrary to conventional thought, even the {311} Bragg reflection is affected strongly by this phenomenon. In this case, the use of reference values calculated using boundary conditions of mechanical equilibrium enables to extract reliable macroscopic residual stress values.

AB - To know the residual stress state within a component is essential for predicting its service life time. Neutron diffraction is a reliable tool for non-destructive determination of macroscopic residual stresses, even deep inside a component. One standard procedure in neutron residual stress analysis is to cut out small macrostress free coupons from the strained component, which serve as reference samples. Redistribution of intergranular stresses due to relaxation when the coupon is cut out, however, may lead to spurious macroscopic stresses. A quantitative study of the change of intergranular stresses shows that, contrary to conventional thought, even the {311} Bragg reflection is affected strongly by this phenomenon. In this case, the use of reference values calculated using boundary conditions of mechanical equilibrium enables to extract reliable macroscopic residual stress values.

UR - https://www.scopus.com/pages/publications/84867095371

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VL - 112

JO - Journal of Applied Physics

JF - Journal of Applied Physics

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ER -

Effect of macroscopic relaxation on residual stress analysis by diffraction methods

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