Abstract
The effect of the heat treatment on the residual stresses of welded cladded steel samples is analyzed in this study. The residual stresses across the plate’s square sections were determined using complementary methods; applying diffraction with neutron radiation and mechanically using the contour method. The analysis of the large coarse grain austenitic cladded layers, at the feasibility limits of diffraction methods, was only made possible by applying both methods. The samples are composed of steel plates, coated on one of the faces with stainless steel filler metals, this coating process, usually known as cladding, was carried out by submerged arc welding. After cladding, the samples were submitted to two different heat treatments with dissimilar parameters: one at a temperature of 620 °C maintained for 1 h and, the second at 540 °C, for ten hours. There was some difference in residual stresses measured by the two techniques along the surface of the coating in the as-welded state, although they are similar at the welding interface and in the heat-affected zone. The results also show that there is a residual stress relaxation for both heat-treated samples. The heat treatment carried out at a higher temperature showed sometimes more than 50% reduction in the initial residual stress values and has the advantage of being less time consuming, giving it an industrial advantage and making it more viable economically.
Highlights
Process vessels are widely used in many diverse industries such as power, petroleum, or chemical industries
Neutron Diffraction measured from the cut surfaces, the suppression of the noise and outliers, succeed by Neutron strain profiles were acquired for all the samples and principal strain direcaveraging the deformations of the matching cut surfaces in order to subtract the shear stress tions, the longitudinal, andof normal to processing the weld pass
The measurement setup effects and cutting flaws.transverse, The final step the data consists in data smoothing and respective residual stress calculations that were carried out taking into consideration
Summary
Process vessels are widely used in many diverse industries such as power, petroleum, or chemical industries. The cladding of the internal surfaces of ferritic steel process vessels is a common practice to avoid corrosion and provide the necessary mechanical properties as detailed in [1]. The ferritic steel vessels are cladded with stainless steel weld beads. Is one of the most widely used methods of making cladded surfaces because of its high quality and reliability [2]. Welding processes normally create huge residual stresses of a tensile nature close to the weld zone. The residual tensile stresses may promote during service operation, due to fatigue, the growth of cracks generated in brittle structures during welding [4]
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