Effect of nitrogen on transformation temperatures of arc-melted, Ti-Ni shape memory alloys)

Y. Sato; Hiroyuki Kokawa; H. Takahashi; T. Kuwana; K. Yamauchi; S. Sato

doi:10.1080/09507119909449003

Effect of nitrogen on transformation temperatures of arc-melted, Ti-Ni shape memory alloys)

Y. Sato, Hiroyuki Kokawa, H. Takahashi, T. Kuwana, K. Yamauchi, S. Sato

Research output: Contribution to journal › Article › peer-review

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Abstract

This paper describes an investigation into the effect of nitrogen on the microstructures and phase transformation temperatures of near-equiatomic, Ti-Ni shape memory alloys arc-melted in Ar-N₂atmospheres. The nitrogen content of the arc-melted samples increases with an increasing melting time and rising nitrogen partial pressure in the atmosphere (arc current of 150 A, arc voltage of 12 V, sample weight of 12 g and melting time of 0–480 sec). The amount of second phase observed in the arc-melted samples increases with an increasing nitrogen content. The second phase is identified as TiN by electron probe microanalysis (EPMA) and X-ray diffraction analysis. Both the Ms and Af temperatures decrease with the increasing nitrogen content of the arc-melted samples. The Ms and Af temperatures are described by functions of the nickel and nitrogen contents.

Original language	English
Pages (from-to)	770-777
Number of pages	8
Journal	Welding International
Volume	13
Issue number	10
DOIs	https://doi.org/10.1080/09507119909449003
Publication status	Published - 1999 Jan 1
Externally published	Yes

ASJC Scopus subject areas

Mechanics of Materials
Mechanical Engineering
Metals and Alloys

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10.1080/09507119909449003

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abstract = "This paper describes an investigation into the effect of nitrogen on the microstructures and phase transformation temperatures of near-equiatomic, Ti-Ni shape memory alloys arc-melted in Ar-N2atmospheres. The nitrogen content of the arc-melted samples increases with an increasing melting time and rising nitrogen partial pressure in the atmosphere (arc current of 150 A, arc voltage of 12 V, sample weight of 12 g and melting time of 0–480 sec). The amount of second phase observed in the arc-melted samples increases with an increasing nitrogen content. The second phase is identified as TiN by electron probe microanalysis (EPMA) and X-ray diffraction analysis. Both the Ms and Af temperatures decrease with the increasing nitrogen content of the arc-melted samples. The Ms and Af temperatures are described by functions of the nickel and nitrogen contents.",

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AU - Sato, Y.

AU - Kokawa, Hiroyuki

AU - Takahashi, H.

AU - Kuwana, T.

AU - Yamauchi, K.

AU - Sato, S.

PY - 1999/1/1

Y1 - 1999/1/1

N2 - This paper describes an investigation into the effect of nitrogen on the microstructures and phase transformation temperatures of near-equiatomic, Ti-Ni shape memory alloys arc-melted in Ar-N2atmospheres. The nitrogen content of the arc-melted samples increases with an increasing melting time and rising nitrogen partial pressure in the atmosphere (arc current of 150 A, arc voltage of 12 V, sample weight of 12 g and melting time of 0–480 sec). The amount of second phase observed in the arc-melted samples increases with an increasing nitrogen content. The second phase is identified as TiN by electron probe microanalysis (EPMA) and X-ray diffraction analysis. Both the Ms and Af temperatures decrease with the increasing nitrogen content of the arc-melted samples. The Ms and Af temperatures are described by functions of the nickel and nitrogen contents.

AB - This paper describes an investigation into the effect of nitrogen on the microstructures and phase transformation temperatures of near-equiatomic, Ti-Ni shape memory alloys arc-melted in Ar-N2atmospheres. The nitrogen content of the arc-melted samples increases with an increasing melting time and rising nitrogen partial pressure in the atmosphere (arc current of 150 A, arc voltage of 12 V, sample weight of 12 g and melting time of 0–480 sec). The amount of second phase observed in the arc-melted samples increases with an increasing nitrogen content. The second phase is identified as TiN by electron probe microanalysis (EPMA) and X-ray diffraction analysis. Both the Ms and Af temperatures decrease with the increasing nitrogen content of the arc-melted samples. The Ms and Af temperatures are described by functions of the nickel and nitrogen contents.

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Effect of nitrogen on transformation temperatures of arc-melted, Ti-Ni shape memory alloys)

Abstract

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