Austenite Partial Recrystallization In The Finishing Stage Of Controlled Rolling Of Niobium Microalloyed Steels With Low Manganese

Recently several studies have been developed on the use of microalloyed steels with low Mn content (below 1%) in the controlled rolling of heavy plates for the manufacture of pipes. However, this novel concept of alloy has peculiarities in its thermomechanical processing. Lower Mn contents should lead to the acceleration of NbCN precipitation kinetics during rolling, leading to a reduction in the soluble Nb content in austenite that delays its recrystallization by drag effect. This fact, plus the heavy and fast passes applied under virtually isothermal conditions in a heavy plate rolling mill with high power, increases the risk of partial recrystallization during the finishing stage of the controlled rolling, since strain hardening of austenite becomes significant and the interaction between precipitation and recrystallization is increasingly delayed. The objective of this study was to analyze the evolution of mean flow stress during the finishing stage of controlled rolling in these low Mn, high Nb microalloyed steels, in order to better understand the metallurgical mechanisms acting during this process and identify conditions that allow full compliance with the requirements of this product class.