Residual stress analysis in robotically welded plates using phased array ultrasonics with validation through neutron diffraction and hole-drilling methods

摘要

This paper explores Residual Stress (RS) measurement in two robotically welded, S275 plates using Phased Array Ultrasonics for Residual Stress Measurement (PAURS) and Neutron Diffraction (ND), with the Incremental Hole Drilling (IHD) method employed for validation. Pogo ultrasonic simulation was used to model the Longitudinal Critically Refracted (LCR) wave and design the ultrasonic setup. Ultrasonic arrays operating at 5 MHz (8 elements) measured RS at a depth of ∼1.25 mm. Results show qualitative agreement among PAURS, ND, and IHD, with RS symmetrically distributed on both sides of the plates, validating the effectiveness of phased array probes for qualitative measurement. However, discrepancies in precise numerical values were observed across methods. As PAURS is a novel technique for welded samples, the paper highlights areas for improvement to enhance its quantitative measurement capabilities. • This paper proposes the usage of Phased Array Ultrasonic probes for Residual Stress monitoring. • This was verified with Neutron Diffraction and Hole Drilling Methods. • Neutron Diffraction was performed over depths of 2 mm, 7 mm, 10 mm, and 13 mm. • Ultrasonic testing was performed across the top and bottom of the sample. • Hole drilling was performed on the top of the sample, all methods showed qualitative agreement.