Influence of Preheating Temperature on Microstructure Evolution and Hardness of High‐Speed Steel AISI M50 Processed by Laser Powder Bed Fusion
The laser powder bed fusion (LPBF) technology has been involved in the tooling industry to produce tools with complex geometry and integrated functions. However, tool steels with high carbon content tend to crack due to the thermal stresses during the LPBF process. One solution is increasing the powder bed temperature to avoid large thermal gradients. In the present study, the influence of the preheating temperature on microstructure and corresponding hardness is systematically investigated. With the help of time–temperature–transformation diagram, the phase evolution during the LPBF process is systematically explained. AISI M50 samples are produced by LPBF from room temperature to a preheating temperature of 650 °C. Higher preheating temperatures shift the optimal laser parameter window to lower volume energy densities. A cellular/dendritic microstructure formed during the rapid solidification with retained austenite is located at the interdendritic regions. Moreover, a high preheating temperature reduces the retained austenite fraction, specifically from 39% without preheating to 7.6% at 650 °C preheating temperature.
- Location
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Deutsche Nationalbibliothek Frankfurt am Main
- Extent
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Online-Ressource
- Language
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Englisch
- Bibliographic citation
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Influence of Preheating Temperature on Microstructure Evolution and Hardness of High‐Speed Steel AISI M50 Processed by Laser Powder Bed Fusion ; day:11 ; month:02 ; year:2023 ; extent:12
Steel research international ; (11.02.2023) (gesamt 12)
- Creator
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Qin, Siyuan
Saewe, Jasmin
Kunz, Johannes
Herzog, Simone
Kaletsch, Anke
Schleifenbaum, Johannes Henrich
Broeckmann, Christoph
- DOI
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10.1002/srin.202200784
- URN
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urn:nbn:de:101:1-2023021114051056016073
- Rights
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Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Last update
- 14.08.2025, 10:44 AM CEST
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Associated
- Qin, Siyuan
- Saewe, Jasmin
- Kunz, Johannes
- Herzog, Simone
- Kaletsch, Anke
- Schleifenbaum, Johannes Henrich
- Broeckmann, Christoph
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Crystal plasticity enhanced direct cyclic analysis of cyclic behaviour of LPBF-manufactured AISI 316L
Influence of Preheating Temperature on Microstructure Evolution and Hardness of High-Speed Steel AISI M50 Processed by Laser Powder Bed Fusion
Mechanical Properties of High‐Speed Steel AISI M50 Produced by Laser Powder Bed Fusion
Mechanical Properties of High-Speed Steel AISI M50 Produced by Laser Powder Bed Fusion
Electron microscopy investigations of WEA/WEC pre-stages in AISI 52100 bearing steel
Kriechen partikelverstärkter metallischer Werkstoffe
Bruch karbidreicher Stähle : Experiment und FEM-Simulation unter Berücksichtigung des Gefüges
Improving the Fatigue Strength of Laser Powder Bed‐Fused AISI M3:2 by Hot Isostatic Pressing
Improving the Fatigue Strength of Laser Powder Bed-Fused AISI M3:2 by Hot Isostatic Pressing
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Influence Of Post Heat Treatment On Microstructure And Residual Stresses Of AISI M50 Produced By Laser Powder-Bed Fusion
Effects of Pressure on Microstructure and Residual Stresses during Hot Isostatic Pressing Post Treatment of AISI M50 Produced by Laser Powder-Bed Fusion