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Design of a Fatigue Resistant Ni-free PdTi-base SMA
D. Frankel
*
, T. Jiang,
G. B. Olson
*
Corresponding author for this work
Materials Science and Engineering
Research output
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Contribution to journal
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Article
›
peer-review
2
Scopus citations
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Keyphrases
Fatigue Resistant
100%
Ni-free
100%
TiAl
100%
Atom Probe Tomography
50%
Biocompatibility
50%
Design Optimization
50%
Shape Memory Alloy
50%
Precipitate Size
50%
2-phase
50%
Medical Devices
50%
Fatigue Resistance
50%
Precipitation Strengthening
50%
Phase Composition
50%
Thermal Cycling
50%
Alloy Design
50%
Fatigue Life
50%
Phase Field
50%
Phase Fraction
50%
PdNi
50%
Thermodynamic Description
50%
Ni-Pd
50%
Fractional Composition
50%
Strengthening Model
50%
Heusler
50%
Mechanical Cycling
50%
PdFe
50%
Kinetic Description
50%
Data Description
50%
Superelastic Alloy
50%
Ni-free Alloy
50%
Engineering
Fatigue Resistance
100%
Phase Fraction
100%
Shape Memory Alloy
100%
Atom Probe Tomography
100%
Optimised Design
100%
Thermodynamic Data
100%
Precipitate Size
100%
Phase Field
100%
Fatigue Life
100%
Phase Composition
100%
Material Science
Fatigue of Materials
100%
Shape Memory Effect
50%
Tomography
50%
Atom Probe
50%
Medical Device
50%
Biocompatibility
50%
Phase Composition
50%