This work investigates the influence of deleterious phases precipitation on the corrosion resistance of two wrought superduplex stainless steels UNS S32750 with similar composition, but different grain sizes. Isothermal treatments were carried out to introduce different amounts of deleterious phases, such as chi (χ), sigma (σ) and secondary austenite (γ 2 ). The specimens were tested by double loop electrochemical potentiodynamic reactivation test (DL-EPR). The kinetics of precipitation in the two steels was different due to the difference of the grain sizes. The results show a correlation between the sensitization degrees, measured by DL-EPR, with the amount of deleterious phases precipitated.
Resumo
O presente trabalho apresenta os resultados da caracterização e avaliação da resistência à corrosão de uma junta soldada correspondente a uma tubulação de aço inoxidável duplex (AID) UNS
Tempering is the final heat treatment applied to martensitic steels. In conventional martensitic stainless steels or in the newly developed supermartensitic grades, the mechanical properties are strongly influenced by tempering. In the present work, several tempering treatments were performed in a Ti alloyed supermartensitic stainless steel. Tensile mechanical properties, hardness and impact toughness were measured and correlated to microstructural features. Microstructural analysis was conducted in a field emission gun scanning electron microscope and also by magnetic measurements. The ductility parameters continuously increased with tempering temperature, while yield and ultimate strength decreased. Secondary hardening and temper embrittlement were observed by hardness and low temperature impact tests respectively, while tensile tests were not sensitive to these phenomena.
Resumo
Os aços inoxidáveis Duplex (AID) aliam uma excelente resistência à corrosão com elevada resistência mecânica devido à fina microestrutura bifásica composta por quantidades similares de ferrita (d) e austenita (g).
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