Lanthanum Role in the Graphite Formation in Gray Cast Irons
The present paper reviews original data obtained by the authors from recent separate publications with additional unpublished data, specifically concerning the Lanthanum (La)'s role in the solidification pattern and graphite formation in gray cast irons. Iron melting at 0.018-0.056%S, a 3.7-4.1...
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Veröffentlicht in: | Minerals (Basel) 2020-12, Vol.10 (12), p.1146, Article 1146 |
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Zusammenfassung: | The present paper reviews original data obtained by the authors from recent separate publications with additional unpublished data, specifically concerning the Lanthanum (La)'s role in the solidification pattern and graphite formation in gray cast irons. Iron melting at 0.018-0.056%S, a 3.7-4.1% carbon equivalent (CE) and less than 0.005%Al-residual are inoculated with La-bearing FeSi alloys at different associations with other inoculating elements. Complex Al-La small inclusions as possible better nucleation sites for (Mn,X)S compounds and La-Ca presence in the body of these sulfides, which possibly provide better nucleation sites for flake graphite, are identified in 0.026%S cast iron. At a lower sulfur content (0.018%S), La,Ca,Al-FeSi alloy still has a high efficiency, but more complex La-bearing alloys are recommended for a higher dendritic austenite amount (LaBaZrTi-FeSi) or for lower eutectic recalescence (LaBaZr-FeSi). La has limited but specific benefits at 0.05-0.06%S irons, including favorable graphitizing factors (a higher amount of graphite precipitated at the end of solidification), lower eutectic recalescence, and a lower value of the first derivative at the end of solidification. When La,Ca,Ba,Al,Zr,S-FeSi treatment (0.035%S base iron) is used, Scanning Electron Microscopy (SEM) analysis finds that the first formed micro-compound is a complex Al-silicate (Zr,La,Ca,Ba presence), which supports the nucleation of the second compound (Mn,Ca,La)S type. At the sulfide-graphite interface, there is a visible thin (nano size) Al-silicate layer (O-Al-Si-Ca-La system), which is more favorable for graphite nucleation (it has better crystallographic compatibility). La is identified in all three important areas of nucleants (the first is formed oxidic nucleus, the second is nucleated Mn-sulfide and the third is a sulfide-graphite interface), thereby increasing the efficiency of graphite nucleation sites. |
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ISSN: | 2075-163X 2075-163X |
DOI: | 10.3390/min10121146 |