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Modern arc processes, such as the modified spray arc (Mod. SA), have been developed for gas metal arc welding of high-strength structural steels with which even narrow weld seams can be welded. High-strength joints are subjected to increasingly stringent requirements in terms of welding processing and the resulting component performance. In the present work, this challenge is to be met by clarifying the influences on hydrogen-assisted cracking (HAC) in a high-strength structural steel S960QL. Adapted samples analogous to the self-restraint TEKKEN test are used and analyzed with respect to crack formation, microstructure, diffusible hydrogen concentration and residual stresses. The variation of the seam opening angle of the test seams is between 30° and 60°. To prevent HAC, the effectiveness of a dehydrogenation heat treatment (DHT) from the welding heat is investigated.
As a result, the weld metals produced at reduced weld opening angle show slightly higher hydrogen concentrations on average. In addition, increased micro- as well as macro-crack formation can be observed on these weld metal samples. On all samples without DHT, cracks in the root notch occur due to HAC, which can be prevented by DHT immediately after welding.
Modified TEKKEN test for studying hydrogen-assisted cracking in high-strength structural steels
(2020)
In the present work, the complex interactions of the influences of material, welding process and seam configuration and the restraint of shrinkage on the residual stresses and the influence of diffusible hydrogen on hydrogen-assisted cracking (HAC) in the high-strength steel S960QL were investigated. For this purpose, self-restraint specimens were selected using the TEKKEN test with correspondingly adapted seam opening angles and a restraint intensity of approx. RFy = 17 kN/(mm·mm). The variation of the seam opening angle of the test seams was between 30° and 60°. Due to the comparatively high restraint of shrinkage in the transverse direction of the weld, high tensile residual stresses in the weld metal were expected for both weld seam configurations. In addition, a dehydrogenation heat treatment (DHT) for HAC prevention under restraint of shrinkage was verified. In order to keep distortion and heat input as low as possible, the seam geometries were manufactured from the solid material by means of electric discharge machining (EDM). Both, solid wire and metal cored wire were used. In addition, hydrogen was added to the shielding gas in solid wire welding to increase diffusible hydrogen concentration. Moreover, welding residual stresses at the weld seam surface, which were measured by using mobile X-ray diffraction, were taken into account to evaluate the HAC behavior. DHT was carried out at 250 °C for 4 h in an external furnace.