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Hauptverfasser: Sieweke, Timon, Luther, Chris, Wortmann, Martin, Schnatmann, Lauritz, Werner, Felicitas, Kuschel, Olga, Bondzio, Laila, Ennen, Inga, Bünte, Judith, Rott, Karsten, Oluwabi, Oluwaseyi, Loewenich, Moritz, Wollschläger, Joachim, Hütten, Andreas, Frenzel, Jan, Schierning, Gabi, Kunzmann, Alexander
Format: Preprint
Veröffentlicht: 2026
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2601.05645
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author Sieweke, Timon
Luther, Chris
Wortmann, Martin
Schnatmann, Lauritz
Werner, Felicitas
Kuschel, Olga
Bondzio, Laila
Ennen, Inga
Bünte, Judith
Rott, Karsten
Oluwabi, Oluwaseyi
Loewenich, Moritz
Wollschläger, Joachim
Hütten, Andreas
Frenzel, Jan
Schierning, Gabi
Kunzmann, Alexander
author_facet Sieweke, Timon
Luther, Chris
Wortmann, Martin
Schnatmann, Lauritz
Werner, Felicitas
Kuschel, Olga
Bondzio, Laila
Ennen, Inga
Bünte, Judith
Rott, Karsten
Oluwabi, Oluwaseyi
Loewenich, Moritz
Wollschläger, Joachim
Hütten, Andreas
Frenzel, Jan
Schierning, Gabi
Kunzmann, Alexander
contents Nickel-titanium that has an austenite to martensite phase transition has been studied extensively in the past as a shape memory alloy, but a lot remains to be learned from such phase transitions. However, single crystals are needed for a detailed characterization of the emerging phase transition. In order to produce NiTi single crystals for research purposes, we have set up a micro-pulling-down ($μ$PD) apparatus. The $μ$PD process is a fast and flexible method for the fabrication of small single crystals. The apparatus is operated in vacuum. By pulling the crystal down through a hole in the crucible bottom, it is possible to reduce oxygen contamination, since oxides float on top of the melt due to their low density. Here we present a detailed characterization of as-grown NiTi crystals by electron backscatter diffraction (EBSD), scanning electron microscopy (SEM), energy dispersive X-ray spectroscopy (EDX), X-ray photoelectron spectroscopy (XPS), hot gas extraction method and differential scanning calorimetry (DSC). The characteristics of the phase transition in NiTi are very sensitive to dopants and alloying. The $μ$PD method facilitates the introduction of different doping elements into the crystal.
format Preprint
id arxiv_https___arxiv_org_abs_2601_05645
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle NiTi Single Crystal Growth by Micro-Pulling-Down Method: Experimental Setup and Material Characterization
Sieweke, Timon
Luther, Chris
Wortmann, Martin
Schnatmann, Lauritz
Werner, Felicitas
Kuschel, Olga
Bondzio, Laila
Ennen, Inga
Bünte, Judith
Rott, Karsten
Oluwabi, Oluwaseyi
Loewenich, Moritz
Wollschläger, Joachim
Hütten, Andreas
Frenzel, Jan
Schierning, Gabi
Kunzmann, Alexander
Materials Science
Nickel-titanium that has an austenite to martensite phase transition has been studied extensively in the past as a shape memory alloy, but a lot remains to be learned from such phase transitions. However, single crystals are needed for a detailed characterization of the emerging phase transition. In order to produce NiTi single crystals for research purposes, we have set up a micro-pulling-down ($μ$PD) apparatus. The $μ$PD process is a fast and flexible method for the fabrication of small single crystals. The apparatus is operated in vacuum. By pulling the crystal down through a hole in the crucible bottom, it is possible to reduce oxygen contamination, since oxides float on top of the melt due to their low density. Here we present a detailed characterization of as-grown NiTi crystals by electron backscatter diffraction (EBSD), scanning electron microscopy (SEM), energy dispersive X-ray spectroscopy (EDX), X-ray photoelectron spectroscopy (XPS), hot gas extraction method and differential scanning calorimetry (DSC). The characteristics of the phase transition in NiTi are very sensitive to dopants and alloying. The $μ$PD method facilitates the introduction of different doping elements into the crystal.
title NiTi Single Crystal Growth by Micro-Pulling-Down Method: Experimental Setup and Material Characterization
topic Materials Science
url https://arxiv.org/abs/2601.05645