Estudo da transformação durante o resfriamento continuo e da microestrutura do aço microligado X80 utilizado na construção de tubos para transporte de gás natural e petróleo. / Study of the transformation during the continuous cooling and the microstructure of microalloyed steel X80 used in the building of pipelines for gas and oil transport.

AUTOR(ES)
DATA DE PUBLICAÇÃO

2008

RESUMO

The continuous increase of energy generated from petroleum and natural gas created the need to improve the mechanical properties of microalloyed steels used in gas and oil pipelines, in order to increase their flow with smaller costs and higher reliability. The control of the different phases, morphology of microconstituents like ferrite plus carbide aggregates and precipitates in this kind of steels is essential to the improvement of mechanical strength, toughness and weldability. In this context, a work of microestrutural characterization of a microalloyed steel for API X80 pipelines was carried out both on an as-received steel sample as in samples submitted to different cooling conditions. The kinetics of austenite transformations was investigated using dilatometric experiments, identifying start and end of the phase transformations as well as the time spent temperatures for the phase transformations at each cooling rate. The temperature and time curves obtained as a function of the cooling rates allowed the determination of a Continuous Cooling Transformation curve (CCT). The data from the CCT curve was compared with the microstructures of each sample through optical microscopy (OM), scanning electron microscopy (SEM), scanning electron microscopy with Field Emission Gun (FEG) and microhardness, characterizing the morphologic evolution of the ferritic matrix, ferrite plus carbide eutectoid aggregates (perlite and bainite) and the microconstituent martensite/austenite (MA). The microestrutural characterization of the samples was performed also using different techniques of microestrutural analysis: precipitate extraction followed by Xrays diffraction analysis, magnetic saturation and atomic force microscopy (AFM) measurements. The magnetic saturation technique was developed through hysteresis curves measured with a hysteresigraph with polar pieces and Rowland ring for several ranges of magnetic field intensity. This technique allowed to detect the magnetic saturation of the steel without thermal treatment and the maximum saturation in the heat treated steels were the retained austenite has transformed. The relationship between those saturations curves allowed a determination of the retained austenite fraction in the MA microconstituent. The nanohardness was measured using a specific device coupled to a atomic force microscope (AFM). The nanohardness of different grains were compared with the hardness values from the literature in order to help identify phases and microconstituents, as well as possible precipitates.

ASSUNTO(S)

microalloyed steel api x80 continuous cooling transformation (cct) phase transformation heat treatment transformações de fase aço microligado gás natural petróleo tratamento térmico

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