Influence of corrosion fatigue on the fatigue strength of an AlSi10MgMn high-pressure die-casting alloy with regard to the surface condition

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Influence of corrosion fatigue on the fatigue strength of an AlSi10MgMn high-pressure die-casting alloy with regard to the surface condition. / Schönowitz, Markus; Maier, Bernd; Grün, Florian et al.
In: Materials and Corrosion, Vol. 74.2023, No. 9, 25.05.2023, p. 1382-1389.

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@article{db3f560cf5534a4396c312ecffc3e27c,
title = "Influence of corrosion fatigue on the fatigue strength of an AlSi10MgMn high-pressure die-casting alloy with regard to the surface condition",
abstract = "This study investigates the influence of corrosion fatigue on the fatigue strength of an AlSi10MgMn high-pressure die-casting alloy with regard to the surface condition. Two different surface conditions are compared. First, an unmachined surface condition with a rough surface (μ) and second a machined and polished surface condition with a smooth, polished surface (μ) are tested. The specimens are loaded with a cyclic bending moment at a constant stress ratio of R = 0 till failure. A 5 wt% NaCl solution enables the corrosion fatigue tests. Corrosion fatigue leads to a significant reduction of the endurable stresses along the whole load spectrum independent from the surface condition. The applied corrosive solution prevents the formation of a pronounced long-life fatigue strength limit within the tested load cycle range. Hence, the reduction of the endurable stresses increases with the increasing number of load cycles, reaching approximately 37% at load cycles. No significant influence of the surface condition, independent of the environment (air, 5 wt% NaCl), on the fatigue behaviour is found.",
author = "Markus Sch{\"o}nowitz and Bernd Maier and Florian Gr{\"u}n and Kathrin Bauer-Tro{\ss}mann",
year = "2023",
month = may,
day = "25",
doi = "10.1002/maco.202313873",
language = "English",
volume = "74.2023",
pages = "1382--1389",
journal = "Materials and Corrosion",
issn = "0947-5117",
publisher = "John Wiley & Sons, Gro{\ss}britannien",
number = "9",

}

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TY - JOUR

T1 - Influence of corrosion fatigue on the fatigue strength of an AlSi10MgMn high-pressure die-casting alloy with regard to the surface condition

AU - Schönowitz, Markus

AU - Maier, Bernd

AU - Grün, Florian

AU - Bauer-Troßmann, Kathrin

PY - 2023/5/25

Y1 - 2023/5/25

N2 - This study investigates the influence of corrosion fatigue on the fatigue strength of an AlSi10MgMn high-pressure die-casting alloy with regard to the surface condition. Two different surface conditions are compared. First, an unmachined surface condition with a rough surface (μ) and second a machined and polished surface condition with a smooth, polished surface (μ) are tested. The specimens are loaded with a cyclic bending moment at a constant stress ratio of R = 0 till failure. A 5 wt% NaCl solution enables the corrosion fatigue tests. Corrosion fatigue leads to a significant reduction of the endurable stresses along the whole load spectrum independent from the surface condition. The applied corrosive solution prevents the formation of a pronounced long-life fatigue strength limit within the tested load cycle range. Hence, the reduction of the endurable stresses increases with the increasing number of load cycles, reaching approximately 37% at load cycles. No significant influence of the surface condition, independent of the environment (air, 5 wt% NaCl), on the fatigue behaviour is found.

AB - This study investigates the influence of corrosion fatigue on the fatigue strength of an AlSi10MgMn high-pressure die-casting alloy with regard to the surface condition. Two different surface conditions are compared. First, an unmachined surface condition with a rough surface (μ) and second a machined and polished surface condition with a smooth, polished surface (μ) are tested. The specimens are loaded with a cyclic bending moment at a constant stress ratio of R = 0 till failure. A 5 wt% NaCl solution enables the corrosion fatigue tests. Corrosion fatigue leads to a significant reduction of the endurable stresses along the whole load spectrum independent from the surface condition. The applied corrosive solution prevents the formation of a pronounced long-life fatigue strength limit within the tested load cycle range. Hence, the reduction of the endurable stresses increases with the increasing number of load cycles, reaching approximately 37% at load cycles. No significant influence of the surface condition, independent of the environment (air, 5 wt% NaCl), on the fatigue behaviour is found.

U2 - 10.1002/maco.202313873

DO - 10.1002/maco.202313873

M3 - Article

VL - 74.2023

SP - 1382

EP - 1389

JO - Materials and Corrosion

JF - Materials and Corrosion

SN - 0947-5117

IS - 9

ER -