Análise da microestrutura e das alterações na dureza de um aço perlítico esferoidizado após tratamento térmico e laminação a frio

Abstract

Steel presents itself as a prominent item in industry, civil construction and in the daily life of everyone, from simple activities to the naval industry, with more complex applications and, therefore, it is necessary to know how to manipulate it and transform its mechanical properties in order to obtain the return according to the demands. This work proposes the study of the microstructure of 1073 steel, pearlitic spheroidized, and the mechanical consequences that the steel can suffer after solution heat treatment followed by subcritical annealing at different times in the oven and being cooled in air. In addition to analyzing how this steel behaves, adding the cold rolling step, with a 50% reduction in thickness, and repeating the heat treatment described before. For this, thermodynamic simulations were initially carried out, so that the austenitization and annealing temperature could be established, and also, the times of permanence in the oven to complete the dilution with the austenitization and the times of recrystallization in the second oven heated for annealing. With this information, it was possible to carry out the first route, analyzing only the heat treatment, and only then, with other samples, to reduce the thickness of the material by cold rolling and repeating the heat treatment. The analysis of changes in wire 1073 was performed using a Scanning Electron Microscope (SEM), in order to obtain images of the microstructure. Then, Rockwell C Hardness tests were performed on the samples in order to analyze the mechanical changes. Finally, in order to align these two results, microstructure and hardness, the measurement of the ferrite area was carried out. Therefore, it was identified that with the heat treatment, the microstructure that was initially characterized by spheroidized pearlite, turned into a thicker pearlite due to the coalescence of the spheres as the annealing furnace time increased, decreasing the hardness. Aligning what was observed in the microstructure along with the hardness, the increase in the ferrite area converged to the decrease in hardness of the material. When analyzing the second route, in which the rolling process was added, a greater hardness was initially obtained, as a consequence of the strain hardening of the steel. But, when performing the heat treatment already standardized here, a reduction in hardness was again identified, as a result of the increase in the area of ferrite. However, in relation to the microstructure, it was not possible to reverse the presence of cementite spheres.Therefore, it was concluded the effective result obtained only with the heat treatment. With the addition of lamination in the process, the time and temperature studied are not enough to change the spheroidized pearlitic microstructure.