Coexistence of rod-like and lamellar eutectic growth patterns

We present the first observations of a large-scale coexistence between rod-like and lamellar eutectic growth patterns during directional solidification of a eutectic alloy. In situ experiments with real-time optical monitoring were carried out under microgravity onboard the International Space Stati...

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Veröffentlicht in:	Scripta materialia 2022-01, Vol.207, p.114314, Article 114314
Hauptverfasser:	Bottin-Rousseau, Sabine, Witusiewicz, Victor T., Hecht, Ulrike, Fernandez, Jose, Laveron-Simavilla, Ana, Akamatsu, Silvère
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Sprache:	eng
Schlagworte:	Condensed Matter Directional solidification Eutectic growth In situ experimentation Materials Science Microgravity Nonlinear Sciences Pattern Formation and Solitons Physics
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creator	Bottin-Rousseau, Sabine Witusiewicz, Victor T. Hecht, Ulrike Fernandez, Jose Laveron-Simavilla, Ana Akamatsu, Silvère
description	We present the first observations of a large-scale coexistence between rod-like and lamellar eutectic growth patterns during directional solidification of a eutectic alloy. In situ experiments with real-time optical monitoring were carried out under microgravity onboard the International Space Station (ISS). We used the transparent succinonitrile-d,camphor eutectic alloy that ordinarily forms rod-like patterns. At low growth velocity, short lamellae stabilized at the contact line with a sample glass wall. In the presence of a controlled transverse temperature gradient, the coupled-growth pattern experienced a global drift along an inclined isotherm, and a stable lamellar domain spread over the solidification front. The propagative nature of the lamellar-to-rod transition was evidenced. The advance of the lamellar/rod domain boundary was determined by a slowly amplifying varicose instability of the lamellae. On a large scale, the domain boundary underwent a dynamic faceting. [Display omitted]
doi_str_mv	10.1016/j.scriptamat.2021.114314
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subjects	Condensed Matter Directional solidification Eutectic growth In situ experimentation Materials Science Microgravity Nonlinear Sciences Pattern Formation and Solitons Physics
title	Coexistence of rod-like and lamellar eutectic growth patterns
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