Ultra-fine bainite in medium-carbon high-silicon bainitic steel
The effects of austenitizing and austempering temperatures on the bainite transformation kinetics and the microstructural and mechanical properties of a medium-carbon high-silicon ultra-fine bainitic steel were investigated via dilatometric measurements, microstructural characterization and mechanic...
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sg-ntu-dr.10356-1797302024-08-23T15:45:07Z Ultra-fine bainite in medium-carbon high-silicon bainitic steel Yu, Xinpan Wang, Yong Wu, Huibin Gong, Na School of Materials Science and Engineering Engineering Prior martensite Transformation behavior The effects of austenitizing and austempering temperatures on the bainite transformation kinetics and the microstructural and mechanical properties of a medium-carbon high-silicon ultra-fine bainitic steel were investigated via dilatometric measurements, microstructural characterization and mechanical tests. It is demonstrated that the optimum austenitizing temperature exists for 0.3 wt.%C ultra-fine bainitic steel. Although the finer austenite grain at 950 °C provides more bainite nuclei site and form finer bainitic ferrite plates, the lower dislocation density in plates and the higher volume fraction of the retained austenite reduces the strength and impact toughness of ultra-fine steel. When the austenitizing temperature exceeds 1000 °C, the true thickness of bainitic ferrite plates and the volume fraction of blocky retained austenite in the bainite microstructure increase significantly with the increases in austenitizing temperature, which do harm to the plasticity and impact toughness. The effect of austempering temperature on the transformation behavior and microstructural morphology of ultra-fine bainite is greater than that of austenitizing temperature. The prior martensite, formed when the austempering temperature below Ms, can refine the bainitic ferrite plates and improve the strength and impact toughness. However, the presence of prior martensite divides the untransformed austenite and inhibits the growth of bainite sheaves, thus prolonging the finishing time of bainite transformation. In addition, prior martensite also strengthens the stability of untransformed austenite though carbon partition and enhances the volume fraction of blocky retained austenite, which reduces the plasticity of ultra-fine bainitic steel. According to the experimental results, the optimum austempering process for 0.3 wt. %C ultra-fine bainitic steel is through austenitization at 1000 °C and austempering at 340 °C. Published version This work was financially supported by the National Key Research and Development Project of China (No. 2022YFB3708200), Fundamental Research Funds for the Central Universities (FRF-BD-23-01) and National Natural Science Foundation of China (No. 52301165). 2024-08-20T00:47:39Z 2024-08-20T00:47:39Z 2024 Journal Article Yu, X., Wang, Y., Wu, H. & Gong, N. (2024). Ultra-fine bainite in medium-carbon high-silicon bainitic steel. Materials, 17(10), 2225-. https://dx.doi.org/10.3390/ma17102225 1996-1944 https://hdl.handle.net/10356/179730 10.3390/ma17102225 38793292 2-s2.0-85194357605 10 17 2225 en Materials © 2024 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering Prior martensite Transformation behavior |
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Engineering Prior martensite Transformation behavior Yu, Xinpan Wang, Yong Wu, Huibin Gong, Na Ultra-fine bainite in medium-carbon high-silicon bainitic steel |
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The effects of austenitizing and austempering temperatures on the bainite transformation kinetics and the microstructural and mechanical properties of a medium-carbon high-silicon ultra-fine bainitic steel were investigated via dilatometric measurements, microstructural characterization and mechanical tests. It is demonstrated that the optimum austenitizing temperature exists for 0.3 wt.%C ultra-fine bainitic steel. Although the finer austenite grain at 950 °C provides more bainite nuclei site and form finer bainitic ferrite plates, the lower dislocation density in plates and the higher volume fraction of the retained austenite reduces the strength and impact toughness of ultra-fine steel. When the austenitizing temperature exceeds 1000 °C, the true thickness of bainitic ferrite plates and the volume fraction of blocky retained austenite in the bainite microstructure increase significantly with the increases in austenitizing temperature, which do harm to the plasticity and impact toughness. The effect of austempering temperature on the transformation behavior and microstructural morphology of ultra-fine bainite is greater than that of austenitizing temperature. The prior martensite, formed when the austempering temperature below Ms, can refine the bainitic ferrite plates and improve the strength and impact toughness. However, the presence of prior martensite divides the untransformed austenite and inhibits the growth of bainite sheaves, thus prolonging the finishing time of bainite transformation. In addition, prior martensite also strengthens the stability of untransformed austenite though carbon partition and enhances the volume fraction of blocky retained austenite, which reduces the plasticity of ultra-fine bainitic steel. According to the experimental results, the optimum austempering process for 0.3 wt. %C ultra-fine bainitic steel is through austenitization at 1000 °C and austempering at 340 °C. |
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School of Materials Science and Engineering |
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School of Materials Science and Engineering Yu, Xinpan Wang, Yong Wu, Huibin Gong, Na |
| format |
Article |
| author |
Yu, Xinpan Wang, Yong Wu, Huibin Gong, Na |
| author_sort |
Yu, Xinpan |
| title |
Ultra-fine bainite in medium-carbon high-silicon bainitic steel |
| title_short |
Ultra-fine bainite in medium-carbon high-silicon bainitic steel |
| title_full |
Ultra-fine bainite in medium-carbon high-silicon bainitic steel |
| title_fullStr |
Ultra-fine bainite in medium-carbon high-silicon bainitic steel |
| title_full_unstemmed |
Ultra-fine bainite in medium-carbon high-silicon bainitic steel |
| title_sort |
ultra-fine bainite in medium-carbon high-silicon bainitic steel |
| publishDate |
2024 |
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https://hdl.handle.net/10356/179730 |
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