Engineering the residual stress state and microstructure of stainless steel with mechanical surface treatments

Turski, Mark; Clitheroe, S.; Evans, Alexander; Rodopoulos, C. A.; Hughes, Darren J.; Withers, Philip J.

doi:10.1007/s00339-010-5672-6

Cited by 79 publications

(45 citation statements)

References 18 publications

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“…These results agree with the previous studies about the influence of LSP and BB on the residual stress state and work hardening of Ti-6Al-4V [2]. Turski et al [7] compared the efficacy of ultrasonic impact treatment (UIT), LSP and water jet cavitation peening (WJCP) at introducing residual stresses and modifying the near surface state compared to SP benchmark for AISI 304. It was concluded that WJCP and LSP introduced the lowest levels of surface roughening.…”

Section: Introductionsupporting

confidence: 82%

Investigation of laser shock peening effects on residual stress state and fatigue performance of titanium alloys

Maawad

Sano

Wagner

et al. 2012

Materials Science and Engineering: A

192

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Laser shock peening can potentially enhance fatigue life of titanium components by inducing compressive residual stresses in surface layers much deeper than caused by traditional shot peening (SP). In the present study, the high cycle fatigue (HCF) performance of α Ti-alloy Ti-2.5Cu, (α + β) Ti-alloy TIMETAL 54M and the metastable β Ti-alloy TIMETAL LCB was investigated after laser shock peening without coating (LPwC). The fatigue results were interpreted by examining the changes of surface morphology, microhardness and residual stress generated in the surface layer. Furthermore, thermal stability of residual stresses in aged Ti-2.5Cu, as an example, was evaluated after annealing LPwC-treated material at various elevated temperatures and exposure times by applying a Zener-Wert-Avrami-approach. The depth profiles of residual stresses were obtained by means of synchrotron X-ray diffraction or by incremental hole drilling method. Results revealed that the HCF performance of Ti-2.5Cu and TIMETAL LCB was markedly improved after LPwC, while it was deteriorated in TIMETAL 54M. Compared to LPwC, better 10 7 fatigue strength of Ti-2.5Cu was obtained after ball-burnishing (BB). Moreover, LPwC-induced residual stresses are thermally more stable than shot peening-induced ones.

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Section: Introductionsupporting

confidence: 82%

Investigation of laser shock peening effects on residual stress state and fatigue performance of titanium alloys

Maawad

Sano

Wagner

et al. 2012

Materials Science and Engineering: A

192

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“…It was noteworthy that the maximum compressive stresses in the longitudinal direction for both butt joint and T-joint were relatively higher than the compressive limit of 304L steel, which implied cold working by the UIT induced plastic deformation of the weld joint. The similar level of compressive residual stresses higher than the material's yield limit was also obtained and reported by previous studies [11,28,32].…”

Section: Effects Of Uit On Weld Residual Stressessupporting

confidence: 65%

“…In most of the cases, it has been found that the UIT introduces compressive residual stresses along varying depths and improves fatigue performances of weld joints in various extent. Turski et al [11] found that the UIT produced compressive residual stress fields of about 2 mm in depth for 304 stainless steel. Liu et al [12] measured residual stresses of UIT-treated high strength steel weld joints.…”

Section: Introductionmentioning

confidence: 99%

“…A number of numerical models have been developed to predict the residual stress distribution and fatigue performance of UIT-treated weld joints [13,15]. Meanwhile, experimental studies of the UIT have been also conducted [11,12,14]. Various measurement techniques such as X-ray diffraction and neutron diffraction were used to obtain experimental data for the validation of simulated residual stresses.…”

Section: Introductionmentioning

confidence: 99%

“…In recent years, numerous studies have been carried out to investigate effects of the UIT on the weld residual stresses and fatigue performance of weld joints [11][12][13][14]. A number of numerical models have been developed to predict the residual stress distribution and fatigue performance of UIT-treated weld joints [13,15].…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Numerical Simulation of Residual Stresses in Welding and Ultrasonic Impact Treatment Process

Tang¹,

Ince²,

Jiao³

2018

Residual Stress Analysis on Welded Joints by Means of Numerical Simulation and Experiments

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Welding technology is considered as a reliable and efficient joining method, which has been widely used in almost all the industry departments. Detrimental factors induced by welding such as micro-cracks/flaws, tensile residual stresses, high stress concentration may degrade the mechanical and fatigue properties of weld joints. Ultrasonic impact treatment (UIT) is considered one of the most efficient post-weld treatment which could improve the fatigue performance of weld joints. In this study, the effect of the UIT on residual stress distribution of 304L weld joints was particularly investigated. FE analysis simulation and the XRD experiment were performed to predict and measure residual stresses of both as-welded and the UIT-treated joints. Compared results show that simulated stresses are in good agreement with the experimental results along various paths, confirming the validity of welding model. The UIT introduces a compressive residual stress layer with depth between 2 and 3 mm near the impacting surface of weld joint.

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Identification of Local Microplasticity on Ti6Al4V After Impingement of Periodically Acting Water Clusters

Poloprudský

Chlupová

Kruml

et al. 2021

Advances in Manufacturing Engineering and Materials II

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Engineering the residual stress state and microstructure of stainless steel with mechanical surface treatments

Cited by 79 publications

References 18 publications

Investigation of laser shock peening effects on residual stress state and fatigue performance of titanium alloys

Investigation of laser shock peening effects on residual stress state and fatigue performance of titanium alloys

Numerical Simulation of Residual Stresses in Welding and Ultrasonic Impact Treatment Process

Identification of Local Microplasticity on Ti6Al4V After Impingement of Periodically Acting Water Clusters

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