The important role of titanium microalloying in refining austenite grain of heavy‐duty H‐beam steel during rough rolling produced by a new technology

Abstract: A new technology of austenite grain refinement, fine austenite enhanced ferrite transformation, is proposed for heavy‐duty hot‐rolled H‐beam steels in this work. Titanium microalloying is very important and necessary for the new technology. The effect of titanium on the prior austenite grain size of steels during simulated rough rolling was investigated. The results show that the prior austenite grain sizes of specimens with titanium and niobium elements are much finer than those of specimens with niobium but … Show more

“…Therefore, compared to conventional TMCP, how to adjust the critical strain for dynamic recrystallization (DRX) and how to use the limited reduction ratio effectively become the key factors for this method. The investigation in our previous work shows that Ti microalloying is conducive to the grain refinement of heavy structural steels [12]. The primary reason for grain refinement can be attributed to the advantage of the inhibitory effect of TiN precipitates on grain growth during reheating before rough rolling.…”

Effect of Ti Addition on the Precipitation Mechanism and Precipitate Size in Nb-Microalloyed Steels

“…Therefore, compared to conventional TMCP, how to adjust the critical strain for dynamic recrystallization (DRX) and how to use the limited reduction ratio effectively become the key factors for this method. The investigation in our previous work shows that Ti microalloying is conducive to the grain refinement of heavy structural steels [12]. The primary reason for grain refinement can be attributed to the advantage of the inhibitory effect of TiN precipitates on grain growth during reheating before rough rolling.…”

Effect of Ti Addition on the Precipitation Mechanism and Precipitate Size in Nb-Microalloyed Steels