【 摘 要 】

A series of anisothermal hot torsion tests were carried out to simulate hot rolling on a high-strength low-carbon CMnNbMoTi microalloyed steel corresponding to an industrial X80 grade for pipeline construction. Mean Flow Stress was graphically represented against the inverse of temperature to characterize the evolution of austenite microstructure during rolling, which was also studied by optical microscopy and SEM on samples quenched from several temperatures. On the other hand, particles precipitated at different temperatures during rolling were analyzed by means of TEM using the carbon extraction replica technique and their size distribution and mean size were determined, as well as their morphology, nature and chemical composition. The effect of rolling temperature and austenite strengthening obtained at the end of thermomechanical processing on final microstructure and precipitation state was studied. Austenite strengthening was characterized by means of the parameter known as accumulated stress (Delta sigma). It was found that ferrite grains are finer and more equiaxed when the austenite is more severely deformed during finishing (higher values of Delta sigma) but lower values of Delta sigma generate a higher density of acicular structures after cooling, which should improve the balance of mechanical properties. The increase in strength associated to acicular ferrite compared to polygonal ferrite is revealed by the higher values of Vickers microhardness measured on samples corresponding to low Delta sigma. On the other hand, (Ti, Nb)-rich carbonitrides can be found from reheating and their size keeps a constant value near 20-30 nm during thermomechanical processing. A second population of much finer (Nb. Mo)-rich carbonitrides whose size is close to 5 nm forms from lower temperatures, near 1000 degrees C. The accomplishment of two different levels of Delta sigma at the end of hot rolling schedule does not seem to introduce major differences in precipitation state before final cooling. (C) 2011 Elsevier B.V. All rights reserved.

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