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Phase transformation in austempered ductile iron by microjet impact
C. Z. Wu, Y. J. Chen,
T. S. Shih
Department of Mechanical Engineering
Research output
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Contribution to journal
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Article
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peer-review
31
Scopus citations
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Keyphrases
Austempered Ductile Iron
100%
Austempering
14%
Austenite
100%
Carbides
14%
Cavitation Erosion
14%
Ductile Iron
14%
Elastic Strain Energy Density
14%
Ferrite Particles
14%
Graphite
14%
Heterogeneous nucleation
14%
Homogeneous nucleation
14%
Martensite
85%
Microhardness
14%
Microjet
100%
Microstructure
42%
Phase Transformation
100%
Plastic Deformation
14%
Scanning Electron Microscopy
14%
Stress-induced
14%
Stringer
14%
Transformation-induced
14%
Ultrasonic Time
14%
Ultrasonic Vibration Treatment
14%
Vickers Hardness
14%
X Ray Diffraction
14%
Engineering
Austenite
100%
Cavitation Corrosion
14%
Elastic Strain
14%
Experimental Result
14%
Heterogeneous Nucleation
14%
Homogeneous Nucleation
14%
Induced Stress
14%
Induced Transformation
14%
Martensite
85%
Micro-Jet
100%
Microhardness
14%
Nodular Iron
100%
Plastic Deformation
14%
Ray Diffraction
14%
Strain Energy Density
14%
Theoretical Value
14%
Ultrasonics
28%
Vickers
14%
Material Science
Austenite
100%
Carbide
14%
Energy Density
14%
Martensite
85%
Microhardness
14%
Nodular Iron
100%
Nucleation
28%
Plastic Deformation
14%
Scanning Electron Microscopy
14%
Vickers Hardness
14%
X-Ray Diffraction
14%