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Development of Microstructure in eutectic Alloys and Practice problems on Binary Eutectic system
Reference: Material Science and Engineering, William Callister
Constitution of alloys – Solid solutions, substitutional and interstitial – phase diagrams, Isomorphous, eutectic, eutectoid, peritectic, and peritectoid reactions, Iron – carbon equilibrium diagram. Classification of steel and cast Iron microstructure, properties and application.
Phase diagrams for Different Alloy
By
P.SENTHAMARAIKANNAN,
ASSISTANT PROFESSOR ,
DEPARTMENT OF MECHANICAL ENGINEERING,
KAMARAJ COLLEGE OF ENGINEERING AND TECHNOLOGY,
VIRUDHUNAGAR, TAMILNADU,
INDIA
Similar to Lecture: Binary phase diagrams and Gibbs free energy curves (20)
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Lecture notes on Structure and Properties of Engineering Polymers
Course Objectives:
The main objective is to introduce polymers as an engineering material and emphasize the basic concepts of their nature, production and properties. Polymers are introduced at three levels; namely, the molecular level, the micro level, and macro-level. Through knowledge of all three levels, student can understand and predict the properties of various polymers and their performance in different products. The course also aims at introducing the students to the principles of polymer processing techniques and considerations of design using engineering polymers.
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Lecture notes on Structure and Properties of Engineering Polymers
Course Objectives:
The main objective is to introduce polymers as an engineering material and emphasize the basic concepts of their nature, production and properties. Polymers are introduced at three levels; namely, the molecular level, the micro level, and macro-level. Through knowledge of all three levels, student can understand and predict the properties of various polymers and their performance in different products. The course also aims at introducing the students to the principles of polymer processing techniques and considerations of design using engineering polymers.
Lecture notes on Structure and Properties of Engineering Polymers
Course Objectives:
The main objective is to introduce polymers as an engineering material and emphasize the basic concepts of their nature, production and properties. Polymers are introduced at three levels; namely, the molecular level, the micro level, and macro-level. Through knowledge of all three levels, student can understand and predict the properties of various polymers and their performance in different products. The course also aims at introducing the students to the principles of polymer processing techniques and considerations of design using engineering polymers.
Lecture notes on Structure and Properties of Engineering Polymers
Course Objectives:
The main objective is to introduce polymers as an engineering material and emphasize the basic concepts of their nature, production and properties. Polymers are introduced at three levels; namely, the molecular level, the micro level, and macro-level. Through knowledge of all three levels, student can understand and predict the properties of various polymers and their performance in different products. The course also aims at introducing the students to the principles of polymer processing techniques and considerations of design using engineering polymers.
Lecture: Polymerization Reactions and TechniquesNikolai Priezjev
Lecture notes on Structure and Properties of Engineering Polymers
Course Objectives:
The main objective is to introduce polymers as an engineering material and emphasize the basic concepts of their nature, production and properties. Polymers are introduced at three levels; namely, the molecular level, the micro level, and macro-level. Through knowledge of all three levels, student can understand and predict the properties of various polymers and their performance in different products. The course also aims at introducing the students to the principles of polymer processing techniques and considerations of design using engineering polymers.
Lecture notes on Structure and Properties of Engineering Polymers
Course Objectives:
The main objective is to introduce polymers as an engineering material and emphasize the basic concepts of their nature, production and properties. Polymers are introduced at three levels; namely, the molecular level, the micro level, and macro-level. Through knowledge of all three levels, student can understand and predict the properties of various polymers and their performance in different products. The course also aims at introducing the students to the principles of polymer processing techniques and considerations of design using engineering polymers.
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In this presentation, the effect of surface tension at liquid-vapor interfaces will be discussed. We will consider a flat liquid-vapor interface at thermodynamic equilibrium and estimate the pressure-stress tensor in the interfacial layer. Further, the surface tension coefficient will be computed for monatomic liquid using the molecular dynamics simulation method. The dependence of the results will be examined as a function of the temperature, density, system size, and details of the interaction potential. Finally, a few examples where the surface tension forces are important will be considered; namely, soap bubbles, the shape of liquid droplets at solid surfaces, and survival of water striders.
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Lecture: Binary phase diagrams and Gibbs free energy curves
1. Textbook: Phase transformations in metals and alloys
(Third Edition), By: Porter, Easterling, and Sherif (CRC
Press, 2009).
Diffusion and Kinetics
Lecture: Binary phase diagrams and Gibbs free
energy curves
Nikolai V. Priezjev
2. Binary phase diagrams and Gibbs free energy curves
• Binary solutions with unlimited solubility
• Relative proportion of phases (tie lines and the lever principle)
• Development of microstructure in isomorphous alloys
• Binary eutectic systems (limited solid solubility)
• Solid state reactions (eutectoid, peritectoid reactions)
• Binary systems with intermediate phases/compounds
• The iron-carbon system (steel and cast iron)
• Temperature dependence of solubility
• Equilibrium vacancy concentration
• Three-component (ternary) phase diagrams
Reading: Chapter 1.5 of Porter, Easterling, Sherif
https://www.slideshare.net/NikolaiPriezjev
3. Binary phase diagram and Gibbs free energy
A binary phase diagram is a temperature - composition map which indicates the
equilibrium phases present at a given temperature and composition.
The equilibrium state can be found from the Gibbs free energy dependence on
temperature and composition.
4. Binary solutions with unlimited solubility (I)
Let’s construct a binary phase diagram for the simplest case: A and B components
are mutually soluble in any amounts in both solid (isomorphous system) and
liquid phases, and form ideal solutions (Hmix = 0).
We have 2 phases – liquid and solid. Let’s consider Gibbs free energy curves for
the two phases at different T.
7. Binary solutions with unlimited solubility (IV)
At T4 and below this
temperature the Gibbs free
energy of the solid phase is
lower than the G of the
liquid phase in the whole
range of compositions – the
solid phase is the only stable
phase.
8. Binary solutions with unlimited solubility (V)
Based on the Gibbs
free energy curves
we can now
construct a phase
diagram for a binary
isomorphous systems
(complete solubility)
9. Binary solutions with unlimited solubility (VI)
Example of isomorphous
system: Cu-Ni (the
complete solubility occurs
because both Cu and Ni
have the same crystal
structure, FCC, similar
radii, electronegativity
and valence).
Liquidus line separates
liquid from liquid + solid
Solidus line separates
solid from liquid + solid
https://www.slideshare.net/NikolaiPriezjev
10. Binary solutions with unlimited solubility (VII)
In one-component system melting occurs at a well-defined melting temperature.
In multi-component systems melting occurs over the range of temperatures, between
the solidus and liquidus lines.
Solid and liquid
phases are at
equilibrium in
this temperature
range.
11. Interpretation of Phase Diagrams
For a given temperature and composition we can use phase diagram to
determine: 1) The phases that are present, 2) Compositions of the phases,
3) The relative fractions of the phases
Finding the composition in a two phase region: (1) Locate composition and
temperature in diagram, (2) In two phase region draw the tie line or isotherm,
(3) Note intersection with phase boundaries. Read compositions at the
intersections.
The liquid and solid phases have these compositions:
12. Interpretation of Phase Diagrams: the Lever Rule
Finding the amounts of phases in a two phase region:
• Locate composition and temperature in diagram
• In two phase region draw the tie line or isotherm
• Fraction of a phase is determined by taking the length of the tie line to the phase
boundary for the other phase, and dividing by the total length of tie line
dividing by the total length of tie line
The lever rule is a mechanical analogy to the mass
balance calculation. The tie line in the two-phase region
is analogous to a lever balanced on a fulcrum.
Derivation of the lever rule:
W = mass fraction
C = weight percenthttps://www.slideshare.net/NikolaiPriezjev
23. Eutectic phase
diagram with
different
crystal
structures
of pure phases
A eutectic system describes
a homogeneous solid mix
of atomic and/or chemical
species, to form a joint
super-lattice, by striking a
unique atomic percentage
ratio between the
components — as each
pure component has its
own distinct bulk lattice
arrangement.
24. Temperature dependence of solubility
There is limited solid solubility of A in B and B in A in the alloy having eutectic phase
diagram:
AG
BG
27. Development of microstructure in eutectic alloys (I)
Several different types of microstructure can be formed in slow cooling an different
compositions. Let’s consider cooling of liquid lead – tin system as an example.
Pb-Sn
28. Development of microstructure in eutectic alloys (II)
At compositions between the room temperature solubility limit and the maximum
solid solubility at the eutectic temperature, phase nucleates as the solid
solubility is
exceeded upon
crossing the
solvus line.
Pb-Sn
29. Development of microstructure in eutectic alloys (III)
Solidification at the eutectic composition
No changes above the eutectic temperature TE. At TE all the liquid transforms to
and phases
(eutectic reaction).
Pb-Sn
30. Development of microstructure in eutectic alloys (IV)
Solidification at the eutectic composition
Formation of the eutectic structure in the lead-tin system. In the micrograph, the
dark layers are lead-reach phase, the light layers are the tin-reach phase.
Compositions of and phases are very different eutectic reaction involves
redistribution of Pb and Sn atoms by atomic diffusion.
This simultaneous
formation of and
phases result in a
layered (lamellar)
microstructure
that is called
eutectic
structure.
Pb-Sn
160m
31. Development of microstructure in eutectic alloys (V)
Compositions other than eutectic but within the range of the eutectic isotherm
Primary phase is formed in the + L region, and the eutectic structure that
includes layers of
and phases
(called eutectic
and eutectic
phases) is formed
upon crossing
the eutectic
isotherm.
Pb-Sn
32. Development of microstructure in eutectic alloys (VI)
Although the eutectic structure
consists of two phases, it is a
microconstituent with distinct
lamellar structure and fixed ratio
of the two phases.
33. Example: The Iron–Iron Carbide (Fe–Fe3C) Phase Diagram
In their simplest form, steels are alloys of Iron (Fe) and Carbon (C). The Fe-C phase diagram is
a fairly complex one, but we will only consider the steel part of the diagram, up to around 7%
Carbon.
C is an
interstitial
element in
Fe matrix.
34. Phases in Iron-Iron Carbide (Fe–Fe3 C) phase diagram:
(C black, Fe yellow)
By weight, it is 6.67% carbon and 93.3% iron.
hard, brittle material
36. Eutectic and eutectoid reactions in Fe–Fe3C phase diagram
Eutectic (liquid to solid)
and eutectoid (solid to
solid) reactions are very
important in heat
treatment of steels
37. Development of Microstructure in Iron - Carbon alloys
Microstructure depends on
composition (carbon content)
and heat treatment. In the
discussion below we consider
slow cooling in which equilibrium
is maintained. (eutectoid =
eutectic-like in Greek).
39. Microstructure of hypoeutectoid steel
Compositions to the left of eutectoid (0.022
- 0.76 wt % C) hypoeutectoid (less than
eutectoid -Greek) alloys.
Hypoeutectoid alloys contain proeutectoid
ferrite (formed above the eutectoid
temperature) plus the eutectoid perlite that
contain eutectoid ferrite and cementite.
40. Microstructure of hypereutectoid steel
Compositions to the right of eutectoid (0.76 -
2.14 wt % C) hypereutectoid (more than
eutectoid -Greek) alloys.
Hypereutectoid alloys contain proeutectoid
cementite (formed above the eutectoid
temperature) plus perlite that contain
eutectoid ferrite and cementite.
41. Equilibrium Vacancy Concentration
RT
H
R
S vve
v
expexp
ignored)v-vons(interacti:Small e
v
0ln e
vvv RTSTH
0|
e
v
vd
dG
vvHH
))1ln()1(
ln(
vv
vvvv RSS
STHGGG AA G
~3 eV1 vH
43
10or10
e
v
for solids at the melting point
42. Influence of Interfaces on Equilibrium
Transfer of dn mol of from large to a small particle
The effect of interfacial energy on the solubility
of small particles.
VPG
r
2
P
r
V
G m
2
RTr
Vm
r
2
1
Gibbs-Thomson effect
G
)nm(
1
1
r
r
RT
rVG mB
r
/2
exp
43. Multicomponent systems (I)
The approach used for analysis of binary systems can be extended to multi-
component systems.
Representation of the
composition in a
ternary system (the
Gibbs triangle). The
total length of the red
lines is 100% :
A
C
B
44. Multicomponent systems (II)
The Gibbs free energy surfaces
(instead of curves for a binary
system) can be plotted for all
the possible phases and for
different temperatures.
The chemical potentials of A,
B, and C of any phase in this
system are given by the points
where the tangential plane to
the free energy surfaces
intersects the A, B, and C axis.
https://www.slideshare.net/NikolaiPriezjev
45. Multicomponent systems (III)
A three-phase equilibrium in the ternary system for a given temperature can
be derived by means of the tangential plane construction.
For two phases to be in equilibrium, the chemical potentials should be equal, that is
the compositions of the two phases in equilibrium must be given by points
connected by a common tangential plane (e.g. l and m).
The relative amounts of phases are given by the lever rule (e.g. using tie-line l-m).
A three phase triangle can result from a common tangential plane simultaneously
touching the Gibbs free energies of three phases (e.g. points x, y, and z).
Eutectic point: four-
phase equilibrium
between , , , and
liquid
46.
47. An example of ternary system
The ternary diagram of
Ni-Cr-Fe. It includes
Stainless Steel (wt.% of
Cr > 11.5 %, wt.% of Fe
> 50 %) and Inconeltm
(Nickel based super
alloys).
Inconel have very good
corrosion resistance, but
are more expensive and
therefore used in
corrosive environments
where Stainless Steels
are not sufficient
(Piping on Nuclear
Reactors or Steam
Generators).
https://www.slideshare.net/NikolaiPriezjev
48. Another example of ternary phase diagram: oil – water –
surfactant
system
Surfactants are surface-active molecules that can form interfaces between immiscible
fluids (such as oil and water). A large number of structurally different phases can be
formed, such as droplet, rod-like, and bicontinuous microemulsions, along with
hexagonal, lamellar, and cubic liquid crystalline phases.