Obtaining in an electric arc furnace alloys of the Fe-Mn-Cr-C system and slag destined to the development of welding consumables

• Main Authors: Lorenzo Perdomo-González, Rafael Quintana-Puchol, Amado Cruz-Crespo, Carlos R. Gómez-Pérez
• Format: Article
• Language: Spanish
• Published: Universidad de Moa "Dr. Antonio Núñez Jiménez" 2018-01-01
• Series: Minería y Geología
• Subjects: ferrocromo; ferromanganeso; escoria; reducción carbotérmica; fundente de soldadura
• Online Access: http://revista.ismm.edu.cu/index.php/revistamg/article/view/1444

The production of chromium manganese ferroalloys for the use in the development of alloying loads of welding consumables is presented. On the basis of variations in the proportions of the chromium and manganese minerals in the loads, different combinations are established, which allow obtaining multicomponent ferroalloys with composition ranging from 9 to 32 % chromium and from 24 to 65 % manganese. The melting-reduction process is carried out in an electric arc furnace with a graphite crucible and with the presence of coke as a reducing component which guarantees the obtaining of high carbon alloys (5–6 %). The use of the multicomponent ferroalloy in the formulation of welding consumables simplifies and makes cheaper the obtaining of these materials. As result of metallurgical processing, slag formed by the silicon, aluminum, magnesium, manganese and calcium oxides are obtained, which are feasible to use in the production of flux matrices for submerged arc welding process.