Issue |
Metall. Res. Technol.
Volume 121, Number 4, 2024
|
|
---|---|---|
Article Number | 414 | |
Number of page(s) | 11 | |
DOI | https://doi.org/10.1051/metal/2024055 | |
Published online | 02 July 2024 |
Original Article
Effect of Zr on the microstructure and properties of high-strength Ti-Mo microalloyed steel after quenching and tempering
Faculty of Materials Science and Engineering, Kunming University of Technology, Kunming, Yunnan 650093, China
* e-mail: nmcjc@163.com
Received:
13
April
2024
Accepted:
7
June
2024
Investigation on the effects of Zr and quenching and tempering processes on the microstructure and properties of high-strength Ti-Mo microalloyed steel using SEM, TEM, mechanical property testing, and First-principles calculations. The results show that within the tempering temperature range of 550–650 °C, the microstructures of Ti-Mo microalloyed steel and Ti-Zr-Mo microalloyed steel consist of ultra-low carbon martensite and carbides. Specifically, the strength of Ti-Mo microalloyed steel initially increases and then decreases with the increase in tempering temperature, while the strength of Ti-Zr-Mo microalloyed steel increases with the increase in tempering temperature. During tempering, the addition of Zr element affects the diffusion of C element, delaying the martensitic tempering transformation process, and slowing down the nucleation, growth, and coarsening processes of alloy carbides. First-principles calculation results indicate that ZrC preferentially forms during tempering, resulting in a certain sequential gradient of precipitated microalloy carbides, thereby enhancing the tempering stability of microalloyed steel. Compared to Ti-Mo steel, Ti-Zr-Mo steel exhibits narrower lath martensite width and finer dispersed precipitation phases after tempering at 600 °C and 650 °C.
Key words: Ti-Mo microalloyed steel / tempering temperature / Zr / martensitic tempering transformation
© EDP Sciences, 2024
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