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Influence of low-gravity solidification on heterogeneous nucleation in stable iron-carbon alloys

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Abstract

The processes of nucleation and growth of alloys during solidification are linked to the level of gravitational force. In a low-gravity environment, buoyancy-induced convection becomes negligible, resulting in lower convection as compared to normal or high gravity. In this paper, heterogeneous nucleation and grain multiplication during solidification of gray cast iron, and the effect of gravitational level on them, have been studied by means of directional solidification on ground and under low-gravity (low-g) and high-gravity (high-g) conditions obtained by aircraft parabolic flights. It has been assumed that the final number of eutectic grains results from the contribution of heterogeneous nucleation,N h , heterogeneous nucleation induced by inoculation,N i , and heterogeneous nucleation induced by convection,N c . In turn,N c has two components, a grain multiplication component,N mc , and a kinetics of chemical reactions component,N kc . In all cases, it was found that a higher number of grains are obtained when solidifying in highg as compared with lowg. This was attributed to higher convection in highg. It was demonstrated that grain multiplication due to convection can contribute 20 to 23 pct from the total number of grains resulting from heterogeneous nucleation of uninoculated samples. For the case of inoculated samples, it was shown that the contribution to the convection-induced nucleation of the kinetics of chemical reactions can be as high as 30 pct but can be zero at very low or very high grain numbers. A possible mechanism and an explanation have been given to those findings. The silicon distribution, graphite morphology, and the influence of soak time on experimental results have also been discussed.

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Authors and Affiliations

  1. Department of Metals and Materials Science Technology, Harbin Institute of Technology, People’s Republic of China

    Huameng Tian (Visitng Scholar)

  2. Department of Metallurgical and Materials Engineering, The University of Alabama, 35487, Tuscaloosa, AL

    Huameng Tian (Visitng Scholar) & Doru M. Stefanescu (University Research Professor and Director of the Solidification Laboratory)

  3. NASA/ Marshall Space Right Center, 35812, AL

    Peter A. Curreri (Materials Scientist)

Authors
  1. Huameng Tian
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  2. Doru M. Stefanescu
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  3. Peter A. Curreri
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Tian, H., Stefanescu, D.M. & Curreri, P.A. Influence of low-gravity solidification on heterogeneous nucleation in stable iron-carbon alloys. Metall Trans A 21, 241–252 (1990). https://doi.org/10.1007/BF02656441

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