Caracterização microestrutural e magnética de aços maraging ligados com nióbio

Abstract

The development of new materials, such as steel, is essential to meet the demand, arising from technological progress, for new products, materials and equipment. In this context, it is possible to mention the studies related to the development of maraging steels with new compositions, aiming to reduce costs and maintain the quality and efficiency of this material. As an example, the development of cobalt-free maraging steels is cited due to the increase in the price of this element at the end of the 70s. Hence, this study aimed to evaluate whether the presence of niobium at three different levels affects the microstructure, hardness and magnetic properties of 18Ni maraging steels. The adopted methodology consisted of the study of the microstructural and magnetic characteristics presented by maraging steels containing, in their composition, Nb contents equal to 0.5, 1.0 and 1.5. This study was carried out by analyzing the results obtained from the following experimental techniques: scanning electron microscopy, Vickers hardness measurement and by determining the magnetic hysteresis curves. The results obtained, for the conditions of production and of thermomechanical processing used, indicated that the presence of niobium in three different contents can be associated with the appearance of unwanted microstructural and magnetic characteristics, for example, magnetic hardening and the appearance of inclusions. However, considering the potential of Nb to replace Ti as an alloying element in maraging steels, it is important to better understand the compositions studied in this work. This understanding is important for the development of materials with microstructural and magnetic characteristics more similar to 18Ni(250), 18Ni(300) and 18Ni(350) maraging steels, but which contain Nb as an alloying element.