chapter 10 phase transformations in metalsphase transformation basic concepts phase transformation...
TRANSCRIPT
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Phase Transformations
in Metals Development of Microstructure and
Alteration of Mechanical Properties
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Introduction
The development of microstructure in
alloys involves phase transformation:
Phase transformation need time, and cooling
rate greatly modify the phase transformation.
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Phase Transformation
Basic Concepts
Phase transformation as well as the
transformation rate are important to develop a
specific microstructure which in turn affect the
mechanical properties of materials.
For example, the tensile strength of Fe-C
eutectoid alloy can be 700 MPa to 2000 MPa
depending on heat treatment condition.
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Basic Concepts
Three classifications of phase transformations:
No change in composition, simple diffusion-
dependent transformation
Composition change, diffusion-dependent
transformation
Diffusionless transformation
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The 1st kind of phase transformation
No change in composition, simple
diffusion-dependent transformation
Solidification
Allotropic transformation (αγ)
Recrystallization and grain growth
No change in composition of phases.
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Composition change, diffusion-dependent
transformation
Eutectoid reaction (γ pearlite)
The 2nd kind of phase transformation
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The 3rd kind of phase transformation
Diffusionless transformation
Metastable phase
Martensitic transformation
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The Kinetics of Phase
Transformation
The progress of a phase transformation can be broken down into two distinct stages:
Nucleation
Growth
There are two types of nucleation :
Homogeneous
Hetergeneous
The growth begins once an embryo has exceeded the critical size, r*
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Solidification: Nucleation Processes
Homogeneous nucleation
nuclei form in the bulk of liquid metal
requires supercooling (typically 80-300°C max)
Heterogeneous nucleation much easier since stable “nucleus” is already present
Could be wall of mold or impurities in the liquid phase
allows solidification with only 0.1-10ºC supercooling
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The Kinetics of Phase
Transformation
Homogeneous nucleation
Nuclei of the new phase form uniformly throughout
the parent phase.
Will occur spontaneously only when free energy
change G is negative.
Fig. 10.1 solidification of a pure material from liquid
phase.
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The Kinetics of Phase
Transformation
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The Kinetics of Phase
Transformation
The are two contributions to the total free
energy change that accompany a solidification
transformation:
Free energy difference between the solid and
liquid phase: Volume free energy : Gv < 0
Formation of the solid-liquid phase boundary:
surface free energy : >0
23 43
4rGrG v
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The Kinetics of Phase
Transformation
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r* = critical nucleus: nuclei < r* shrink; nuclei>r* grow (to reduce energy)
Homogeneous Nucleation & Energy Effects
GT = Total Free Energy
= GS + GV
Surface Free Energy- destabilizes
the nuclei (it takes energy to make
an interface)
24 rGS
= surface tension
Volume (Bulk) Free Energy –
stabilizes the nuclei (releases energy)
GrGV3
3
4
volume unit
energy free volume G
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The Kinetics of Phase
Transformation
The subcritical particle is an embryo, whereas
the particle of radius greater than r* is termed a
nucleus.
Since r* and G* appear at the maximum on the
free energy-versus-radius curve of Fig. 10.2b,
derivation of expressions for these two
parameters is a simple matter. equation 10.3
and 10.4
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The Kinetics of Phase
Transformation
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vGr
2*
2
3
)(3
16*
vGG
m
mf
vT
TTHG
)(
)1
)(2
(*TTH
Tr
mf
m
22
23
)(
1)
3
16(*
TTH
TG
mf
m
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The Kinetics of Phase
Transformation
T1>T2
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The Kinetics of Phase
Transformation The number of stable nuclei n* (radii greater than r*) is
a function of temperature:
Another temperature-dependent parameter is also
important for nucleation: rate of diffusion, the
frequency atoms from the liquid attach to the solid
nucleus.
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)*
exp(* 1kT
GKn
)exp(2kT
QKv d
d
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The Kinetics of Phase
Transformation
)exp()
*exp(* 3213
kT
Q
kT
GKKKvnKN d
d
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The Kinetics of Phase
Transformation
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The Kinetics of Phase
Transformation
Example Problem
Computation of critical nucleus radius and
activation free energy
Computing the number of atoms in a critical
nucleus.
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The Kinetics of Phase
Transformation
Heterogeneous Nucleation
The activation energy (energy barrier) for nucleation
(△G* ) is lowered when nuclei form on preexisting
surfaces or interfaces.
The surface free energy is reduced.
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The Kinetics of Phase
Transformation
Hetergeneous Nucleation
cosSLSIIL
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The Kinetics of Phase
Transformation
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v
SL
Gr
2*
)()()(3
16hom
*
2
3
*
SGSG
Gv
SLhet
=30-90o, S()=0.01~0.5
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The Kinetics of Phase
Transformation
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The Kinetics of Phase
Transformation
The nucleation
rate is shifted to
higher temperature
for heterogeneous.
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The Kinetics of Phase
Transformation
The growth rate is determined by the rate of
diffusion and its temperature dependence is the
same.
The overall phase transformation rate is equal to
some product of N and G
28
)exp(kT
QCG
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The Kinetics of Phase
Transformation
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The Kinetics of Phase
Transformation
The rate of transformation and the time required
for the transformation (say 50%) is inversely
proportional to one another.
Rate of transformation : r = 1/ t0.5
t 0.5 = time required for halfway to completion.
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10.3 The Kinetics of Phase
Transformation
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Rate of transformation
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The Kinetics of Phase Transformation-
Kinetic considerations of solid-state transformation
Rate of transformation : r = 1/ t0.5
t 0.5 = time required for halfway to completion.
Temperature will affect the rate of transformation:
Q = activation energy
Phase transformation is a thermal activated process.
)(RT
Q
eAr
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The Kinetics of Phase Transformation-
Kinetic considerations of solid-state
transformation
Solid-state transformation did not occur instantly.
Need composition redistribution or atomic
rearrangement
Energy increase for nucleation or new phase
boundaries.
Time-dependent process (kinetics): Avrami equation.
k, n = time-independent constant ; k relates to r.
)exp(1 nkty
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Rate of transformation
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Metastable versus Equilibrium
states
Phase transformation is a time-dependent
process, long time is required to reach
equilibrium stage.
Speed or rate of cooling is designed to produce
specific microstructure which the phase may not the
equilibrium one. metastable phase.
Supercooling or superheating happens very often in
practical purpose.
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Microstructure and Property Changes in Fe-C
Alloys
10.5 Isothermal Transformation Diagrams
Eutectoid reaction, at 727oC
γ pearlite (α+ Fe3C)
See Fig. 10.12
The lower the temperature, the fast the phase
transforms.
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Isothermal Transformation Diagrams
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Isothermal Transformation Diagrams
T~< 727oC (slightly lower):
Phase transformation needs longer time
Microstructure becomes coarse pearlite.
T << 727oC (much lower):
Phase transformation is quick.
Microstructure is fine pearlite.
See Fig. 10.13, which is called isothermal transformation diagram. (Time-temperature-transformation, T-T-T plot)
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T-T-T plot
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Cooling curve ABCD in T-T-T plot for
eutectoid reaction
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(a) Coarse pearlite and (b) fine pearlite
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End of section (1)
You have learned:
What is eutectoid phase transformation
Phase transformation needs time
Cooling rate affect phase transformation, and
eventually microstructure.
T-T-T plot to show how can the coarse pearlite and
fine pearlite be formed.