MARTENSITIC TRANSFORMATIONS IN INDIUM- (13-X) AT% LEAD-X AT% TIN PSEUDOBINARY ALLOYS.

Yasumasa Koyama; Toshiyasu Ukena; Kazuo Morikawa; Osamu Nittono

MARTENSITIC TRANSFORMATIONS IN INDIUM- (13-X) AT% LEAD-X AT% TIN PSEUDOBINARY ALLOYS.

Yasumasa Koyama^*, Toshiyasu Ukena, Kazuo Morikawa, Osamu Nittono

^*Corresponding author for this work

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

1 Citation (Scopus)

Abstract

Lattice parameters at each temperature during the phase transformation show that the alloys undergo two kinds of phase transformation: fct(c/a less than 1) reversible reaction fco phase transformation in alloys containing (0-9) at%Sn and fct(c/a less than 1) reversible reaction fct(c/a greater than 1) one in the alloys containing (11-13) at%Sn. The shape recovery on heating is discussed in terms of crystallographic reversibility. The fct(c/a less than 1) reversible reaction fco phase transformation is analyzed phenomenologically on the basis of the Landau theory and the change in entropy and the elastic constant are calculated. The temperature dependence of the stress-strain relation is also discussed in terms of ferro- and super-elasticity.

Original language	English
Pages (from-to)	919-926
Number of pages	8
Journal	Nippon Kinzoku Gakkai-si
Volume	47
Issue number	11
Publication status	Published - 1983 Jan 1
Externally published	Yes

ASJC Scopus subject areas

Condensed Matter Physics
Mechanics of Materials
Metals and Alloys
Materials Chemistry

Cite this

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title = "MARTENSITIC TRANSFORMATIONS IN INDIUM- (13-X) AT% LEAD-X AT% TIN PSEUDOBINARY ALLOYS.",

abstract = "Lattice parameters at each temperature during the phase transformation show that the alloys undergo two kinds of phase transformation: fct(c/a less than 1) reversible reaction fco phase transformation in alloys containing (0-9) at%Sn and fct(c/a less than 1) reversible reaction fct(c/a greater than 1) one in the alloys containing (11-13) at%Sn. The shape recovery on heating is discussed in terms of crystallographic reversibility. The fct(c/a less than 1) reversible reaction fco phase transformation is analyzed phenomenologically on the basis of the Landau theory and the change in entropy and the elastic constant are calculated. The temperature dependence of the stress-strain relation is also discussed in terms of ferro- and super-elasticity.",

author = "Yasumasa Koyama and Toshiyasu Ukena and Kazuo Morikawa and Osamu Nittono",

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T1 - MARTENSITIC TRANSFORMATIONS IN INDIUM- (13-X) AT% LEAD-X AT% TIN PSEUDOBINARY ALLOYS.

AU - Koyama, Yasumasa

AU - Ukena, Toshiyasu

AU - Morikawa, Kazuo

AU - Nittono, Osamu

PY - 1983/1/1

Y1 - 1983/1/1

N2 - Lattice parameters at each temperature during the phase transformation show that the alloys undergo two kinds of phase transformation: fct(c/a less than 1) reversible reaction fco phase transformation in alloys containing (0-9) at%Sn and fct(c/a less than 1) reversible reaction fct(c/a greater than 1) one in the alloys containing (11-13) at%Sn. The shape recovery on heating is discussed in terms of crystallographic reversibility. The fct(c/a less than 1) reversible reaction fco phase transformation is analyzed phenomenologically on the basis of the Landau theory and the change in entropy and the elastic constant are calculated. The temperature dependence of the stress-strain relation is also discussed in terms of ferro- and super-elasticity.

AB - Lattice parameters at each temperature during the phase transformation show that the alloys undergo two kinds of phase transformation: fct(c/a less than 1) reversible reaction fco phase transformation in alloys containing (0-9) at%Sn and fct(c/a less than 1) reversible reaction fct(c/a greater than 1) one in the alloys containing (11-13) at%Sn. The shape recovery on heating is discussed in terms of crystallographic reversibility. The fct(c/a less than 1) reversible reaction fco phase transformation is analyzed phenomenologically on the basis of the Landau theory and the change in entropy and the elastic constant are calculated. The temperature dependence of the stress-strain relation is also discussed in terms of ferro- and super-elasticity.

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MARTENSITIC TRANSFORMATIONS IN INDIUM- (13-X) AT% LEAD-X AT% TIN PSEUDOBINARY ALLOYS.

Abstract

ASJC Scopus subject areas

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