Engineering
Direct Observation
100%
Thermal Cycle
100%
Heat Affected Zone
100%
Martensite
100%
Delta Ferrite
100%
Final Microstructure
100%
Martensitic Stainless Steel
100%
Desired Property
50%
Power Generation
50%
Ray Diffraction
50%
Peak Temperature
50%
Welds
50%
Martensitic Microstructures
50%
Retained Austenite
50%
Rate of Heating
50%
Tempered Martensite
50%
High Temperature Applications
50%
Ray Diffraction Technique
50%
Austenite
50%
Temporal Resolution
50%
Melting Point
50%
Keyphrases
Phase Transformation
100%
Martensitic Steel
100%
Simulated Heat Affected Zone
100%
Martensite
66%
Delta Ferrite
66%
Final Microstructure
66%
Temporal Resolution
33%
Synchrotron Radiation
33%
Microstructure
33%
In Situ X-ray Diffraction
33%
Peak Temperature
33%
Thermal Cycling
33%
Heating Rate
33%
Retained Austenite
33%
X-ray Diffraction Experiments
33%
Austenite
33%
Steel Grade
33%
Power Generation Industry
33%
Welding Thermal Cycle
33%
Martensitic Microstructure
33%
Thermal Power Generation
33%
Boron Alloying
33%
As-received
33%
Microstructural Observation
33%
High Temperature Applications
33%
Tempered Martensite
33%
Welding Heat Affected Zone
33%
Vacuum Induction Melting
33%
Nb-bearing Steel
33%
Directly Observed
33%
Earth and Planetary Sciences
Martensitic Steel
100%
Heat Affected Zone
100%
Martensite
100%
X Ray Diffraction
66%
Austenite
66%
Synchrotron Radiation
33%
Energy Generation
33%
Material Science
Martensite
100%
Martensitic Stainless Steel
100%
X-Ray Diffraction
66%
Austenite
66%
Boron
33%
Diffraction Measurement
33%