Ingot Structure And Segregation

IN THE early period of steelmaking, ingot structure and segregation presented no difficult problems. Crucible melting required very small ingots which, if properly deoxidized, gave little segregation, and a small inserted hot top prevented pipe. As larger ingots were poured [ ] from Bessemer and open-hearth furnaces, segregation, piping, and gas evolution became increasingly important. The first studies of solidification were made by Gathmann (l) and the Brearley's (2) who used stearine to show the effects of shrinkage and mold shape. Figure 78 shows a series of stearine ingots at various stages of solidification. These studies indicated that the liquid solidifies at a nearly uniform rate, starting at the walls and bottom of the mold and progressing inward, and demonstrated the formation of secondary pipe in big-end-down molds. Stearine illustrates the mechanics of solidification, and exaggerates pipe because of its great