2022
DOI: 10.1111/ffe.13651
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Fatigue failure risk evaluation of bimetallic rolls in four‐high hot rolling mills

Abstract: In hot rolling mills, bimetallic rolls are used because of the excellent hardness and wear resistance by applying high‐speed steel (HSS) and ductile casting iron (DCI). Because most of the previous studies focused on surface spalling, almost no study is available for internal fatigue failure based on the stress during the rolling. In this study, therefore, a three‐dimensional finite element method is applied to investigate the rolling stress of the work roll in the four‐high rolling mill. A suitable chamfer ge… Show more

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Cited by 3 publications
(1 citation statement)
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“…Chai et al [24] used the flatness calculation model to analyse and compare the flatness and longitudinal residual stress evolution during the rolling process of thick plate and thin plate. Aridi et al [25] drew the temperature field after the last pass through mathematical modelling and on-site temperature measurement, and they found the cooling curve under various operating conditions. Overhagen and Mauk [26] calculated the crown of the thermal work roll by using the axisymmetric numerical solution of the thermal equation of the work roll, and they obtained the evolution process of the strip steel profile.…”
Section: State Of the Artmentioning
confidence: 99%
“…Chai et al [24] used the flatness calculation model to analyse and compare the flatness and longitudinal residual stress evolution during the rolling process of thick plate and thin plate. Aridi et al [25] drew the temperature field after the last pass through mathematical modelling and on-site temperature measurement, and they found the cooling curve under various operating conditions. Overhagen and Mauk [26] calculated the crown of the thermal work roll by using the axisymmetric numerical solution of the thermal equation of the work roll, and they obtained the evolution process of the strip steel profile.…”
Section: State Of the Artmentioning
confidence: 99%