2005
DOI: 10.1179/174329305x36034
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Effect of welding process and groove angle on type IV cracking behaviour of weld joints of a ferritic steel

Abstract: Creep tests were carried out at 923 K and various stress levels on weld joints of 11CrMoWVNb (P122) steel prepared via gas tungsten arc, electron beam, and laser welding processes. All the weld joints exhibited typical type IV cracking. However, the rupture life of the weld joints was found to increase with decreases in the width of the heat affected zone (HAZ) and the groove angle. A comparison of the results with those for the simulated fine grained HAZ (FGHAZ) revealed that the creep damage and the type of … Show more

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Cited by 46 publications
(40 citation statements)
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“…[12] The linear increase in the creep rupture strength of the weld joint with preheat, as predicted by Francis et al [29] is a bit difficult to visualize, particularly for a higher preheat temperature. On the other hand, a longer creep rupture life with a narrower HAZ has been reported by Albert et al [30] and Avar et al [31] in the Cr-Mo steel weld joint. The width of the HAZ was varied, employing different fusion welding techniques having different heat inputs.…”
Section: Measures To Improve Type IV Cracking Resistancementioning
confidence: 76%
See 1 more Smart Citation
“…[12] The linear increase in the creep rupture strength of the weld joint with preheat, as predicted by Francis et al [29] is a bit difficult to visualize, particularly for a higher preheat temperature. On the other hand, a longer creep rupture life with a narrower HAZ has been reported by Albert et al [30] and Avar et al [31] in the Cr-Mo steel weld joint. The width of the HAZ was varied, employing different fusion welding techniques having different heat inputs.…”
Section: Measures To Improve Type IV Cracking Resistancementioning
confidence: 76%
“…Several measures have been suggested to minimize the effect of type IV cracking in the weld joint of Cr-Mo steels; [26][27][28][29][30][31][32][33][34][35][36][37] these measures could be categorized as (1) heat treatment, (2) welding technique, and (3) adjustment of composition.…”
Section: Measures To Improve Type IV Cracking Resistancementioning
confidence: 99%
“…In the case of weld joint, deformation of weak FGHAZ/ICHAZ are constricted by relatively strong base metal on one side and CGHAZ on the other side during creep resulting in triaxial stress state which results in cavitation and final fracture in this zone with very little ductility. Figure 6 shows a schematic representation of type IV cracking in the creep test of ferritic steel weld joint (Albert et al 2005). Although it is difficult to avoid type IV cracking, several methods are being adopted to improve type IV cracking resistance.…”
Section: Type IV Cracking Of Ferritic Steel Weld Jointsmentioning
confidence: 99%
“…This is in contrast to little deformation reported in the case of type IV fracture of the other conventional ferritic steel weld-joint specimens with similar specimen geometries. [16] In order to find out the optimum boron level in the steel that gives highest rupture life for a given stress, the rupture lives of both the parent metal and the weld joint were plotted as a function of the boron content, as shown in Figure 10. For a given stress, 90 ppm B steel has the highest rupture life for the parent metal, while for weld joints, 130 ppm B steel has the best results.…”
Section: B Creep Propertiesmentioning
confidence: 99%