Residual stress evaluation in dissimilar welded joints using finite element simulation and the L CR ultrasonic wave

Javadi, Yashar and Najafabadi, Mehdi Ahmadi and Akhlaghi, Mehdi (2012) Residual stress evaluation in dissimilar welded joints using finite element simulation and the L CR ultrasonic wave. Russian Journal of Nondestructive Testing, 48 (9). pp. 541-552. ISSN 1608-3385 (https://doi.org/10.1134/S1061830912090033)

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Abstract

Subsurface stresses in welded structures increase the likelihood of fatigue cracks and environmental induced material degradation. The ability to evaluate stresses at the surface as well as in the interior of welded structural members would substantially increase the accuracy of structure life estimation. The longitudinal critically refracted (L CR) wave is a bulk longitudinal mode that travels within an effective depth underneath the surface. It may be used to detect in-plane subsurface stresses in the structures. This paper presents a three dimensional thermo-mechanical analysis to evaluate welding residual stresses in dissimilar plate-plate joint of AISI stainless steel 304 and Carbon Steel A106-B type. After finite element simulation, the residual stresses were evaluated by L CR ultrasonic waves. Finally the results of two methods were compared and verified by hole-drilling method. This paper introduces a combination of "Finite Element Welding Simulation" and "Ultrasonic Stress Measurement using the L CR Wave" which is called as "FEL CR". The capabilities of FEL CR″. The capabilities of FEL CR in residual stress measurement are confirmed here. And also this paper evaluates residual stresses of dissimilar welded joints by LCR ultrasonic waves. It has been shown that predicted residual stress from three dimensional FE analyses is in reasonable agreement with measured residual stress from LCR method and also the results of both are verified with hole-drilling experimental measurements.

ORCID iDs

Javadi, Yashar ORCID logoORCID: https://orcid.org/0000-0001-6003-7751, Najafabadi, Mehdi Ahmadi and Akhlaghi, Mehdi;
CORE (COnnecting REpositories)