Transport properties of single-and three-core FeSe wires fabricated by a novel chemical-transformation PIT process

Mizuguchi Y.; Izawa H.; Ozaki T.; Takano Y.; Miura O.

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Transport properties of single-and three-core FeSe wires fabricated by a novel chemical-transformation PIT process

机译：通过新型化学转化PIT工艺制备的单芯和三芯FeSe线的传输性能

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We fabricated single-and three-core superconducting FeSe wires by a novel process based on a chemical transformation from hexagonal FeSe_(1 + d) (non-superconducting) to tetragonal FeSe (superconducting) via an optimal supply of Fe from the Fe sheath by annealing. This process enhanced the packing density of the core inside the sheath, owing to an expansion of lattice volume via a chemical transformation from high-density hexagonal FeSe_(1 + d) to low-density tetragonal FeSe. The obtained wire showed superconductivity below ～ 10K and the obtained transport critical current densities at 0T and 4.2K were 588 Acm~(-2) for the three-core wire and 218Acm~(-2) for the single-core wire.

机译：我们通过一种新颖的工艺制造了单芯和三芯FeSe导线，该工艺基于从六方FeSe_（1 + d）（非超导）到四方FeSe（超导）的化学转化，通过从铁皮中获得最佳的铁供应来实现。退火。该过程通过从高密度六方FeSe_（1 + d）到低密度四方FeSe的化学转化而扩大了晶格体积，从而提高了皮芯内芯的堆积密度。所获得的导线在〜10K以下具有超导性，在0T和4.2K时，三芯导线的传输临界电流密度为588 Acm〜（-2），单芯导线的传输临界电流密度为218Acm〜（-2）。

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《Superconductor Science & Technology 》 |2011年第12期| 共5页
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Mizuguchi Y.; Izawa H.; Ozaki T.; Takano Y.; Miura O.;
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1. Transport properties of single-and three-core FeSe wires fabricated by a novel chemical-transformation PIT process [J] . Mizuguchi Y., Izawa H., Ozaki T., Superconductor Science & Technology . 2011 ,第12期

机译：通过新型化学转化PIT工艺制备的单芯和三芯FeSe线的传输性能
2. Evolution of Tetragonal Phase in the FeSe Wire Fabricated by a Novel Chemical-Transformation Powder-in-Tube Process [J] . Hiroki Izawa, Yoshikazu Mizuguchi, Toshinori Ozaki, Japanese journal of applied physics . 2012 ,第1ISSUE1期

机译：新型化学转化管内粉末工艺制造的FeSe丝中四方相的演化
3. The effect of geometry of composite MgB2/stainless-steel (SS) wires fabricated by PIT process on the superconducting properties [J] . Song KJ, Kim SW, Park C, Physica, C. Superconductivity and its applications . 2004 ,第1a2期

机译：PIT工艺制造的复合MgB2 /不锈钢丝的几何形状对超导性能的影响
4. Effect of heat treatment on superconducting properties of FeSe wire fabricated by PIT method [C] . V. Vlasenko, K. Pervakov, V. Pudalov, European Conference on Applied Superconductivity . 2014

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5. Characterization of new rotary endodontic instruments fabricated from special thermomechanically processed Nickel titanium wire. [D] . Liu, Jie. 2009

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7. Evolution of tetragonal phase in the FeSe wire fabricated by a novel chemical-transformation PIT process [O] . Izawa, Hiroki, Mizuguchi, Yoshikazu, Ozaki, Toshinori, 2011

机译：新型Fese线制备四方相的演变化学转化pIT过程
8. Superconducting Properties of Nb sub 3 Sn Multifilamentary Wires Fabricated by Internal Tin Process [R] . Higuchi, N., Tsuchiya, K., Klamut, C. J., 1983

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Transport properties of single-and three-core FeSe wires fabricated by a novel chemical-transformation PIT process

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