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MME 340
PHASE TRANSFORMATIONS
IN MATERIALS
ANANDH SUBRAMANIAM
Materials Science and Engineering
INDIAN INSTITUTE OF TECHNOLOGY KANPUR
New Delhi- 110016
Ph: (+91) (512) 259 7215, Fax: (+91) (512) 259 7505
[email protected]
http://home.iitk.ac.in/~anandh/
UNIVERSE
STRONG
WEAK
ELECTROMAGNETIC
HYPERBOLIC
EUCLIDEAN
SPHERICAL
ENERGY
SPACE
GRAVITY
nD + t
FIELDS
PARTICLES
METAL
SEMI-METAL
BAND STRUCTURE
NON-ATOMIC
ATOMIC
SEMI-CONDUCTOR
INSULATOR
STATE / VISCOSITY
GAS
SOLID
LIQUID
CRYSTALS
LIQUID
STRUCTURE
AMORPHOUS
QUASICRYSTALS
RATIONAL
APPROXIMANTS
CRYSTALS
SIZE
NANO-QUASICRYSTALS
NANOCRYSTALS
Thermo-mechanical
Treatments
Crystal
Atom
Structure
Electromagnetic
• Casting
• Metal Forming
• Welding
• Powder Processing
• Machining
Microstructure
Phases
Component
+ Defects
• Vacancies
• Dislocations
• Twins
+
• Stacking Faults
• Grain Boundaries
• Voids
• Cracks
Processing determines shape and microstructure of a component
Residual
Stress
Transformations in Materials
Phases
Defects
Residual stress
Phases can transform
Defect structures can change
Stress state can be altered
Phase
transformation
Defect structure
transformation
Stress-state
transformation
Geometrical
Physical
Structural
Property
Phases
Phases Transformations
Microstructure
Microstructural Transformations
Phase Defined Using
GEOMETRICAL Entities
E.g. Atoms, Cluster of Atoms
Ions, etc.
PHYSICAL Properties
E.g. Spin, Magnetic Moment
ORDER
ORIENTATIONAL
PROBABILISTIC OCCUPATION
POSITIONAL
Physical
Sources of
Residual Stress
Property
• Thermal
• Magnetic
• Ferroelectric
Geometrical
Structural
Phase
transformations & reactions
• Volume, Shape change
Defects
The product of phase
transformation or reaction
would have a different
morphology as compared
to the parent phase
• Coherent/semi-coherent precipitates
• Epitaxial structures (coherent/semi-coherent)
• Vacancies
• Dislocations
• Twins
• Stacking Faults
• Grain Boundaries
• Voids
• Cracks
Thermal
Sources of
Residual Stress
Physical property
• Thermal
• Magnetic
• Ferroelectric
Structural
Geometric structure
Phase
transformations & reactions
Defects
• Coherent/semi-coherent precipitates
• Epitaxial structures (coherent/semi-coherent)
• Vacancies
• Dislocations
• Twins
• Stacking Faults
• Grain Boundaries
• Voids
• Cracks
Phase Transition
 Transitions between two phases of identical chemical composition
Phase Transformation
 Covers a wider spectrum of phenomena
 Includes PHASE REACTIONS leading to compositional changes
 E.g.: ’ →  +  (different crystal structure & chemical composition)

 →  + 
Note:
Identical chemical composition  equilibrium point defect concentration may be
different in the polymorphs (but considered to be of identical composition)
Some Questions?
 What is a Phase?
 What kind of phases exist?
 What constitutes a transformation?
 How can we cause a phase transformation to occur?
 The stimuli: P, T, Magnetic field, Electric field
 What kind of phase transformations are there?
 Why does a phase transformation occur?
 Energy considerations of the system?
 Thermodynamic potentials (G, A…)
Length Scales Involved
Nucleus
Atom
Crystal
Defects
Microstructure
Component