Abstract
A research was done to investigate the effect of strong deoxidizing elements, such as Al, Zr, and Ti, in gray irons in laboratory experiments. The conclusions drawn were based mainly on thermal analysis, chill (carbides) sensitivity, graphite characteristics, and SEM analysis. Al and Zr have visible beneficial effects in preconditioning of gray irons, by favoring lower undercooling during solidification. Ti has an inconclusive role, with limited influence, but promotes undercooled graphite formation. Complex (Mn,X)S compounds, nucleated on the previously formed small oxide-based sites, were found as the major nucleation sites for graphite in gray irons, with specific distribution of Al, Ti, and Zr. Al,Zr-FeSi preconditioning of electrically melted and Sr-FeSi inoculated gray irons avoided type D graphite and carbides in 3 mm sections castings.
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