Study on the thermal fatigue of NiTi wires
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X. Wu
,
K. Kutschej
Abstract
The fatigue behaviour of NiTi wire has been studied. It was found that NiTi wires trained with constant strain could show different fatigue behaviour, depending on the temperature range of training and the temperature range of fatigue. A mechanism for the thermal fatigue behaviour of NiTi is suggested according to the experimental results.
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The authors are grateful for the financial support from the Austrian Science Foundation (FWF project No. P14221-TEC).
References
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© 2003 Carl Hanser Verlag, München
Artikel in diesem Heft
- Frontmatter
- Articles/Aufsätze
- Formation of nanoscale particles and their effect on properties of alloys
- The application of gallium as a liquid metal lubricant
- Phase diagram of the Al–Cu–Fe quasicrystal-forming alloy system
- Phase diagram of the Al–Cu–Fe quasicrystal-forming alloy system
- Phase diagram of the Al–Cu–Fe quasicrystal-forming alloy system
- The Zn-rich corner of the Zn–Fe–Co system at 450°C
- Study on the thermal fatigue of NiTi wires
- Dispersion strengthening of copper by internal oxidation of rapidly solidified Cu–RE alloys
- High-temperature oxidation of Cu–Ti-based rapidly solidified alloys
- Simulation of solidification and heat treatment of nickel-base superalloy SC16
- Contribution of SiC particles to the formation of the structure of Mg-3 wt.% RE cast composites
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- Personal/Personelles
- Books/Bücher
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Artikel in diesem Heft
- Frontmatter
- Articles/Aufsätze
- Formation of nanoscale particles and their effect on properties of alloys
- The application of gallium as a liquid metal lubricant
- Phase diagram of the Al–Cu–Fe quasicrystal-forming alloy system
- Phase diagram of the Al–Cu–Fe quasicrystal-forming alloy system
- Phase diagram of the Al–Cu–Fe quasicrystal-forming alloy system
- The Zn-rich corner of the Zn–Fe–Co system at 450°C
- Study on the thermal fatigue of NiTi wires
- Dispersion strengthening of copper by internal oxidation of rapidly solidified Cu–RE alloys
- High-temperature oxidation of Cu–Ti-based rapidly solidified alloys
- Simulation of solidification and heat treatment of nickel-base superalloy SC16
- Contribution of SiC particles to the formation of the structure of Mg-3 wt.% RE cast composites
- Notifications/Mitteilungen
- Personal/Personelles
- Books/Bücher
- Gesellschaftsnachricht
- DGM Conferences
