Stability of ageing-induced multiple-stage transformation behaviour in a Ti-50.15%Ni alloy
Identifieur interne : 005A25 ( PascalFrancis/Corpus ); précédent : 005A24; suivant : 005A26Stability of ageing-induced multiple-stage transformation behaviour in a Ti-50.15%Ni alloy
Auteurs : Y. Liu ; D. FavierSource :
- Journal de physique. IV [ 1155-4339 ] ; 2001.
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- Pascal (Inist)
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Abstract
A fully annealed Ti-50.15%Ni alloy was found to develop a multiple-stage transformation behaviour after ageing at 623 K. The transformation behaviour corresponded to the R-phase transition and two separate martensitic transformations on cooling and two reverse transformations of the two martensites on heating. This study investigated the effects of overheating and thermal cycling on the stability of the multiple-stage transformation behaviour. It was found that overheating to above 723 K for a short time restored the single-stage transformation behaviour by eliminating the second martensitic transformation whilst merging the R-phase transition into the first martensitic transformation. Thermal cycling, on the other hand, was found to cause a degradation of the multiple-stage transformation behaviour by eliminating the first martensitic transformation.
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Format Inist (serveur)
NO : | PASCAL 02-0056711 INIST |
---|---|
ET : | Stability of ageing-induced multiple-stage transformation behaviour in a Ti-50.15%Ni alloy |
AU : | LIU (Y.); FAVIER (D.); AIROLDI (Graziella); BESSEGHINI (Stefano) |
AF : | Department of Mechanical and Materials Engineering, University of Western Australia/Nedlands, WA 6009/Australie (1 aut.); Laboratoire Sols, Solides, Structures, UMR 5521 du CNRS, University Joseph Fourier, BP. 53/38041 Grenoble/France (2 aut.); Dipartimento di Scienza dei Materiali, Università di Milano Bicocca, Via R. Cozzi 53/20125 Milano/Italie (1 aut.); CNT-TeMPE, Sezione di Lecco, Corso Promessi Sposi 28/23900 Lecco/Italie (2 aut.) |
DT : | Publication en série; Congrès; Niveau analytique |
SO : | Journal de physique. IV; ISSN 1155-4339; France; Da. 2001; Vol. 88; Pr8.113-Pr8.118; Bibl. 12 ref. |
LA : | Anglais |
EA : | A fully annealed Ti-50.15%Ni alloy was found to develop a multiple-stage transformation behaviour after ageing at 623 K. The transformation behaviour corresponded to the R-phase transition and two separate martensitic transformations on cooling and two reverse transformations of the two martensites on heating. This study investigated the effects of overheating and thermal cycling on the stability of the multiple-stage transformation behaviour. It was found that overheating to above 723 K for a short time restored the single-stage transformation behaviour by eliminating the second martensitic transformation whilst merging the R-phase transition into the first martensitic transformation. Thermal cycling, on the other hand, was found to cause a degradation of the multiple-stage transformation behaviour by eliminating the first martensitic transformation. |
CC : | 001B80A30K; 240 |
FD : | Transformation martensitique; Vieillissement; Recuit; Transformation martensitique inverse; DSC; Traitement thermique; Cycle thermique; Mécanisme; Titane alliage; Nickel alliage; Alliage binaire; Etude expérimentale; Alliage NiTi; Ni Ti; 8130K |
FG : | Métal transition alliage |
ED : | Martensitic transformations; Aging; Annealing; Reverse martensitic transformations; DSC; Heat treatments; Thermal cycle; Mechanism; Titanium alloys; Nickel alloys; Binary alloys; Experimental study |
EG : | Transition element alloys |
GD : | Temperaturverlauf |
SD : | Ciclo térmico; Mecanismo |
LO : | INIST-125C.354000102981080200 |
ID : | 02-0056711 |
Links to Exploration step
Pascal:02-0056711Le document en format XML
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<front><div type="abstract" xml:lang="en">A fully annealed Ti-50.15%Ni alloy was found to develop a multiple-stage transformation behaviour after ageing at 623 K. The transformation behaviour corresponded to the R-phase transition and two separate martensitic transformations on cooling and two reverse transformations of the two martensites on heating. This study investigated the effects of overheating and thermal cycling on the stability of the multiple-stage transformation behaviour. It was found that overheating to above 723 K for a short time restored the single-stage transformation behaviour by eliminating the second martensitic transformation whilst merging the R-phase transition into the first martensitic transformation. Thermal cycling, on the other hand, was found to cause a degradation of the multiple-stage transformation behaviour by eliminating the first martensitic transformation.</div>
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<server><NO>PASCAL 02-0056711 INIST</NO>
<ET>Stability of ageing-induced multiple-stage transformation behaviour in a Ti-50.15%Ni alloy</ET>
<AU>LIU (Y.); FAVIER (D.); AIROLDI (Graziella); BESSEGHINI (Stefano)</AU>
<AF>Department of Mechanical and Materials Engineering, University of Western Australia/Nedlands, WA 6009/Australie (1 aut.); Laboratoire Sols, Solides, Structures, UMR 5521 du CNRS, University Joseph Fourier, BP. 53/38041 Grenoble/France (2 aut.); Dipartimento di Scienza dei Materiali, Università di Milano Bicocca, Via R. Cozzi 53/20125 Milano/Italie (1 aut.); CNT-TeMPE, Sezione di Lecco, Corso Promessi Sposi 28/23900 Lecco/Italie (2 aut.)</AF>
<DT>Publication en série; Congrès; Niveau analytique</DT>
<SO>Journal de physique. IV; ISSN 1155-4339; France; Da. 2001; Vol. 88; Pr8.113-Pr8.118; Bibl. 12 ref.</SO>
<LA>Anglais</LA>
<EA>A fully annealed Ti-50.15%Ni alloy was found to develop a multiple-stage transformation behaviour after ageing at 623 K. The transformation behaviour corresponded to the R-phase transition and two separate martensitic transformations on cooling and two reverse transformations of the two martensites on heating. This study investigated the effects of overheating and thermal cycling on the stability of the multiple-stage transformation behaviour. It was found that overheating to above 723 K for a short time restored the single-stage transformation behaviour by eliminating the second martensitic transformation whilst merging the R-phase transition into the first martensitic transformation. Thermal cycling, on the other hand, was found to cause a degradation of the multiple-stage transformation behaviour by eliminating the first martensitic transformation.</EA>
<CC>001B80A30K; 240</CC>
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<EG>Transition element alloys</EG>
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