The superduplex stainless steels (SDSS) are widely used in chemical, oil and gas industries, to pipelines and storage material facilities. In welding process or working in temperature elevated, secondary phases may appear in the form of precipitates, as the sigma phase (σ) which is an intermetallic compound. This compound is harmful to the properties of steel, deteriorating its mechanical properties, such as decreasing corrosion resistance and toughness. In this paper it is analyzed the formation, kinetics and microstructural evolution of sigma phase in SDSS UNS S32750 after isothermal aging at 700ºC, 750ºC and 800ºC. In this work sigma phase kinetics is studied by JMAK theory and by two microstructural path descriptors, S V , interfacial area per unit of volume between sigma phase and austenite, and <λ>, mean chord length of sigma, both in function of the V V , volumetric fraction of sigma, known in the literature as microstructural partial path (MP). The MP formulation is common in recrystallization studies, but so far has not been used in the sigma phase precipitation studies, being applied here for the first time. The results indicated that the sigma phase nucleates by site saturation with anisotropic linear impingement. This means that sigma phase nucleates on edges.
Resumo Os aços inoxidáveis superduplex possuem em sua constituição as fases austenita e ferrita em proporções semelhantes, esses aços apresentam propriedades mecânicas oriundas da combinação dessas duas fases. As fases sigma (σ) e austenita secundária (γ 2) surgem nesses aços, de uma possível reação de decomposição eutetóide da ferrita (α → σ + γ 2). Este trabalho estuda as transformações de fases, a caracterização das microestruturas do aço inoxidável superduplex UNS S32750, através de microscopia óÓptica, ferritoscopia, quantificação de fases, evolução da dureza Vickers do material, e a precipitação da fase σ após tratamento térmico de recozimento a 800ºC em tempos variados. Essa fase é prejudicial ao aço, pois diminui a resistência à corrosão do mesmo e o fragiliza, sua formação ocorre entre 600ºC e 1.000ºC. Foi estudada a evolução da fase σ através do método do caminho microestrutural proposto por Vandermeer, geralmente aplicado a recristalização e não em estudos de precipitação da fase σ. Os resultados indicam que a nucleação da fase σ ocorreu por saturação de sítios. Palavras-chave: Aço inoxidável superduplex; Fase sigma; Caminho microestrutural.
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