Thesis EFECTO DEL CROMO EN EL COMPORTAMIENTO ANTE LA CORROSION DE ACEROS TWIP Fe22Mn0.6C
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Date
2017
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Universidad Técnica Federico Santa María UTFSM. Casa Central Valparaíso
Abstract
Los aceros TWIP (Twinning Induced Plasticity) son aleaciones de acero con alto porcentaje de manganeso (15-30%) y con cantidades de carbono que no superan por lo general los 0.8%. Completamente austeníticos y con la particularidad que presentan distintos mecanismos de deformación, dependiendo de la Energía de Falla de Apilamiento, la cual es dependiente de la composición y temperatura. Los mecanismos de deformación que pueden presentar estos aceros son: maclado mecánico, transformación martensítica, envejecimiento por deformación dinámica y por supuesto, deslizamiento de dislocaciones. Sin embargo, poseen una resistencia a la corrosión baja y aun poco estudiada. La hipótesis presentada en esta tesis formula la teoría de que el Cromo en solución sólida puede elevar la resistencia a la corrosión del acero base Fe22Mn0.6C utilizado, no afectando sus excelentes propiedades mecánicas.Para cumplir con la hipótesis propuesta se formularon 4 objetivos específicos.Se efectuaron ensayos de espectrometría de impedancia electroquímica que permitieron determinar parámetros de corrosión para realizar comparaciones entre aceros TWIP con tres composiciones químicas distintas. Los ensayos realizados determinaron menores velocidades de corrosión para la aleación con 10%Cr, seguida de la de 5%Cr y finalmente la aleación base. Con esto se pudo concluir que el cromo efectivamente ofrece una mejora en la resistencia a la corrosión de un acero TWIP de composición base Fe22Mn0.6C.Se realizaron ensayos de tracción a temperatura ambiente. En relación con este objetivo, se pudo constatar que el cromo ofrece también un aumento en la resistencia mecánica de la aleación.Finalmente, se efectuó la medición de la Energía de Falla de Apilamiento (EFA) y de la fracción de maclas generadas durante la deformación plástica por difracción de rayos X (DRX) corroborando que realmente nos encontramos en valores de energía que favorecen el proceso de TWIP.
TWIP (Twinning Induced Plasticity) steels are alloys with a high percentage of manganese (15-30%) and with amounts of carbon that do not exceed 0.8%. They are completely austenitic and have the particularity of different deformation mechanisms, depending on the stacking fail energy, which is dependent on the composition and temperature. The mechanisms of deformation that can follow these steels are: mechanical twinning, martensitic transformation, aging by dynamic deformation and by dislocation glide. However, corrosion resistance has not been well studied in this kind of steels. The hypothesis presented in this thesis formulates the theory that the chromium in solid solution can raise the resistance to the corrosion of the steel base Fe22Mn0.6C, not affecting its excellent mechanical properties.In order to comply with the proposed hypotheses, 4 specific objectives were formulated.Electrochemical impedance spectrometry tests were carried out to determine the corrosion parameters for comparison. This becomes benefits for the alloy with 10% Cr, after 5% and finally the base of the alloy. With this it can be concluded that chromium does indeed offer an improvement in corrosion resistance.Tensile tests were performed at room temperature. In relation to this objective, it was possible to verify that the chromium also an increase in the mechanical resistance of the alloyFinally, the measurement of the and the fraction of the stain by XRD was carried out corroborating that they are not really present in the energy values that favor the process of twining formation and the percentage of these was determined.
TWIP (Twinning Induced Plasticity) steels are alloys with a high percentage of manganese (15-30%) and with amounts of carbon that do not exceed 0.8%. They are completely austenitic and have the particularity of different deformation mechanisms, depending on the stacking fail energy, which is dependent on the composition and temperature. The mechanisms of deformation that can follow these steels are: mechanical twinning, martensitic transformation, aging by dynamic deformation and by dislocation glide. However, corrosion resistance has not been well studied in this kind of steels. The hypothesis presented in this thesis formulates the theory that the chromium in solid solution can raise the resistance to the corrosion of the steel base Fe22Mn0.6C, not affecting its excellent mechanical properties.In order to comply with the proposed hypotheses, 4 specific objectives were formulated.Electrochemical impedance spectrometry tests were carried out to determine the corrosion parameters for comparison. This becomes benefits for the alloy with 10% Cr, after 5% and finally the base of the alloy. With this it can be concluded that chromium does indeed offer an improvement in corrosion resistance.Tensile tests were performed at room temperature. In relation to this objective, it was possible to verify that the chromium also an increase in the mechanical resistance of the alloyFinally, the measurement of the and the fraction of the stain by XRD was carried out corroborating that they are not really present in the energy values that favor the process of twining formation and the percentage of these was determined.
Description
Catalogado desde la version PDF de la tesis.
Keywords
CORROSION, EIS, MACLAS, TWIP
