The Effect of Prior Cold Work on Tensile Residual Stress Development in Nuclear Weldments

Hornbach, Douglas J.; Prevéy, Paul S.

doi:10.1115/1.1481035

Cited by 20 publications

(8 citation statements)

References 8 publications

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“…The reason behind this is not understood clearly at the moment, but might be attributed to the complex microstructural formation and complicated residual stress as described before. It has been reported that the fatigue crack growth is influenced by the residual stresses, while the micro-hardness measurements are not influenced [28], and compressive and tensile residual stresses are obtained in the center of HAZ and near the edge outside the HAZ, respectively [29]. From the above modified Goodman diagrams in Fig.…”

Section: Mechanical Propertiesmentioning

confidence: 98%

Mechanical properties of SPCC low carbon steel joints prepared by metal inert gas welding

Okayasu¹,

Ohkura²,

Sakamoto³

et al. 2013

Materials Science and Engineering: A

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Section: Mechanical Propertiesmentioning

confidence: 98%

Mechanical properties of SPCC low carbon steel joints prepared by metal inert gas welding

Okayasu¹,

Ohkura²,

Sakamoto³

et al. 2013

Materials Science and Engineering: A

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“…Tensile residual stresses are of particular concern because they can contribute to fatigue crack development in a structure even under compressive cyclic loading [5]. They are also considered to be the main reason for the initiation and propagation of stress corrosion cracks (SCC) in austenitic weldments [6]. In addition, the kinetics of defect growth can be affected by residual stresses.…”

Section: Introductionmentioning

confidence: 99%

A comparison of residual stresses in multi pass narrow gap laser welds and gas-tungsten arc welds in AISI 316L stainless steel

Elmesalamy

Francis

2014

International Journal of Pressure Vessels and Piping

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Thick-section austenitic stainless steels have widespread industrial applications, especially in nuclear power plants. The joining methods used in the nuclear industry are primarily based on arc welding processes. However, it has recently been shown that narrow gap laser welding (NGLW) can weld materials with thicknesses that are well beyond the capabilities of single pass autogenous laser welding. The heat input for NGLW is much lower than for arc welding, as are the expected levels of residual stress and distortion. This paper reports on a preliminary investigation of the through-thickness 2D residual stresses distributions, distortions, and plastic strain characteristics, for the NGLW process using material thicknesses up to 20 mm. The results are compared with those obtained with gas-tungsten arc (GTA) welding. While further work is required on thicker test pieces, preliminary results suggest that the longitudinal tensile residual stresses in NGLW joints are 30e40% lower than those for GTA welds.

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“…Additionally, the corrosion of magnesium alloys is also affected by processing procedure. It is reported that the residual stresses are remained in both the circumferential and axial directions after the drawing operation [ 29 ], which reduces the stress corrosion crack resistance of magnesium alloys significantly [ 28 ]. In the present study, no annealing was applied on the as-drawn magnesium wires.…”

Section: Resultsmentioning

confidence: 99%

The effect of tensile and fluid shear stress on the in vitro degradation of magnesium alloy for stent applications

Wenxin

et al. 2018

Bioactive Materials

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Magnesium alloys have gained great attention as biodegradable materials for stent applications. Cardiovascular stents are continuously exposed to different types of mechanical loadings simultaneously during service, including tensile, compressive and fluid shear stress. In this study, the in vitro degradation of WE43 wires was investigated under combined effect of tensile loading and fluid shear stress and compared with that experienced an individual loading condition. For the individual mechanical loading treatment, the degradation of magnesium wires was more severely affected by tensile loading than fluid shear stress. Under tensile loading, magnesium wires showed faster increment of corrosion rates, loss of mechanical properties and localized corrosion morphology with the increasing tensile loadings. With the combined stress, smaller variation of the corrosion rates as well as the slower strength degeneration was shown with increasing stress levels, in comparison with the individual treatment of tensile loading. This study could help to understand the effect of complex stress condition on the corrosion of magnesium for the optimization of biodegradable magnesium stents.

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The Effect of Prior Cold Work on Tensile Residual Stress Development in Nuclear Weldments

Cited by 20 publications

References 8 publications

Mechanical properties of SPCC low carbon steel joints prepared by metal inert gas welding

Mechanical properties of SPCC low carbon steel joints prepared by metal inert gas welding

A comparison of residual stresses in multi pass narrow gap laser welds and gas-tungsten arc welds in AISI 316L stainless steel

The effect of tensile and fluid shear stress on the in vitro degradation of magnesium alloy for stent applications

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