Earth and Planetary Sciences
Stability
100%
Austenite
100%
Martensite
100%
Tempering
100%
Thermal Stability
27%
Heating
27%
Fraction
18%
Softening
18%
Magnetic Measurement
9%
Carbon
9%
Dilatometry
9%
Content
9%
Temperature
9%
Difference
9%
Plastic Deformation
9%
High Strength Steels
9%
Thermal Recovery
9%
Stable
9%
Specimen
9%
Strain
9%
Dislocation
9%
INIS
martensite
100%
austenite
100%
stability
100%
tempering
100%
reduction
18%
microstructure
18%
dilatometry
9%
levels
9%
thermal recovery
9%
carbon
9%
matrices
9%
temperature range 0273-0400 k
9%
dislocations
9%
steels
9%
decomposition
9%
heating
9%
monitoring
9%
density
9%
solid solutions
9%
shrinkage
9%
plasticity
9%
strains
9%
Engineering
Retained Austenite
100%
Martensite
100%
Austenite
71%
Microstructure
28%
Reduction
28%
Influencing Factor
28%
Austenite Decomposition
14%
Advanced High Strength Steel
14%
Mechanisms
14%
Plastic Deformation
14%
Strain
14%
Dislocation Density
14%
Phase Fraction
14%
Recovery
14%
Austenite Fraction
14%
Material Science
Mechanical Stability
100%
Austenite
100%
Martensite
100%
Thermal Stability
27%
Microstructure
18%
Temperature
18%
Shrinkage
9%
Dislocation
9%
Density
9%