Datum
2024-08-01Schlagwort
600 Technik Plattierter StahlErmüdung bei hohen LastspielzahlenVerbundwerkstoffErmüdung bei niedrigen LastspielzahlenMikrostrukturMetadata
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Aufsatz
Artikel (Publikationen im Open Access gefördert durch die UB)
Impact of a single-side 100Cr6 clad layer on the tensile and fatigue properties of S550MC steel
Zusammenfassung
The production of newly developed hot-rolled layered metal composites (LMC) leads to the availability of sheet materials with specifically adjustable, graded properties being cost-effective and suitable for large-scale production. As many of the envisaged applications of these LMC, e.g., clutch disc carriers, suffer from cyclic loading during service life, a fundamental knowledge of the fatigue behavior is required in order to ensure safe and reliable application of the components. Therefore, the present study focuses on the fatigue behavior of a hot-rolled two-layer LMC consisting of a S550MC substrate layer and a 100Cr6 clad layer. In order to investigate the influence of the clad layer, two conditions are directly compared, i.e., the two-layer laminate cladded steel and the single-layer substrate condition. Results presented by mechanical testing include hardness measurements and tensile tests as well as strain-controlled low-cycle fatigue and stress-controlled high-cycle fatigue tests. These results are discussed based on evolution of microstructure, residual stress, and defects, respectively, as elaborated by scanning electron microscopy, X-ray diffraction, and fracture surface analysis.
Zitierform
In: Fatigue & Fracture of Engineering Materials & Structures Volume 47 / Issue 10 (2024-08-01) , S. 3707-3722 ; eissn:1460-2695Förderhinweis
Gefördert im Rahmen des Projekts DEALSammlung(en)
Publikationen (Fachgebiet Metallische Werkstoffe)Artikel (Publikationen im Open Access gefördert durch die UB)
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@article{doi:10.17170/kobra-2024092310868,
author={Krochmal, Marcel and Wegener, Thomas and Niendorf, Thomas},
title={Impact of a single-side 100Cr6 clad layer on the tensile and fatigue properties of S550MC steel},
journal={Fatigue & Fracture of Engineering Materials & Structures},
year={2024}
}
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2024-09-23T12:42:53Z 2024-09-23T12:42:53Z 2024-08-01 doi:10.17170/kobra-2024092310868 http://hdl.handle.net/123456789/16058 Gefördert im Rahmen des Projekts DEAL eng Namensnennung 4.0 International http://creativecommons.org/licenses/by/4.0/ cladded steel high-cycle fatigue layered metal composites low-cycle fatigue microstructure 600 Impact of a single-side 100Cr6 clad layer on the tensile and fatigue properties of S550MC steel Aufsatz The production of newly developed hot-rolled layered metal composites (LMC) leads to the availability of sheet materials with specifically adjustable, graded properties being cost-effective and suitable for large-scale production. As many of the envisaged applications of these LMC, e.g., clutch disc carriers, suffer from cyclic loading during service life, a fundamental knowledge of the fatigue behavior is required in order to ensure safe and reliable application of the components. Therefore, the present study focuses on the fatigue behavior of a hot-rolled two-layer LMC consisting of a S550MC substrate layer and a 100Cr6 clad layer. In order to investigate the influence of the clad layer, two conditions are directly compared, i.e., the two-layer laminate cladded steel and the single-layer substrate condition. Results presented by mechanical testing include hardness measurements and tensile tests as well as strain-controlled low-cycle fatigue and stress-controlled high-cycle fatigue tests. These results are discussed based on evolution of microstructure, residual stress, and defects, respectively, as elaborated by scanning electron microscopy, X-ray diffraction, and fracture surface analysis. open access Krochmal, Marcel Wegener, Thomas Niendorf, Thomas doi:10.1111/ffe.14383 Grant Number: 461734789 Plattierter Stahl Ermüdung bei hohen Lastspielzahlen Verbundwerkstoff Ermüdung bei niedrigen Lastspielzahlen Mikrostruktur publishedVersion eissn:1460-2695 Issue 10 Fatigue & Fracture of Engineering Materials & Structures 3707-3722 Volume 47 false
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