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Effertz, Pedro
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Publications (6/6 displayed)
- 2023Laser-powder bed fusion process optimisation of AlSi10Mg using extra trees regressioncitations
- 2022Directed energy deposition processes and process design by artificial intelligencecitations
- 2019The influence of process parameters in linear friction welded 30CrNiMo8 small cross-section: a modelling approachcitations
- 2018Residual stresses in 18CrNiMo7-6 linear friction welded high strength steel chainscitations
- 20173D Modelling of Flash Formation in Linear Friction Welded 30CrNiMo8 Steel Chaincitations
- 2017Modelling the flash formation of linear friction welded 30CrNiMo8 high strength steel chainscitations
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article
Residual stresses in 18CrNiMo7-6 linear friction welded high strength steel chains
Abstract
Linear friction welding is a solid-state process that comprises rapid heating and cooling of the welded parts. Residual stresses (RS) as in every other welding process cannot be avoided. The presence of RS compromises the in-service performance and reliability. They influence stress corrosion cracking, fatigue strength, and the crack growth rate. Knowing the magnitude and nature of such stresses is critical for improving the quality of welded joints. Therefore, four different manufacturing stages of linear friction welded chain links were analyzed in the present study: “as forged” (F), “as welded” (A), “as welded” without flash (N), and post weld heat treated (P). The residual stress field was measured using the hole drilling (HD) method. The results of the hole drilling method showed to be independent of the measured position and symmetry with respect to the weld was observed in all evaluated regions. Close to the weld center line (WCL), the compressive stresses present in the “as forged” condition switched to tensile as a result of the welding process. However, in further regions, stresses remained almost unchanged for either A and N. The PWHT uniformizes the residual stress field along the whole weld region.