MSE 170 Final review part 2courses.washington.edu/mse170/lecture_notes/rolandiF08/... · 2008. 12....
Transcript of MSE 170 Final review part 2courses.washington.edu/mse170/lecture_notes/rolandiF08/... · 2008. 12....
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Chapter 2 -
MSE 170 Final review part 2
• Exam date: 12/9/2008 Tues, 8:30-10:20 • Place: Here! • Closed book, no notes and no collaborations • Two sheets of letter-sized paper with double-
sided notes is allowed • Exam is comprehensive: material on the exam
will be taken from the text book reading, lecture notes, homework, and lab
• Bring a calculator and straight edge/triangle • The review materials are not comprehensive,
there may be questions on the exam on topics not listed here
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Chapter 2 -
Plastic deformation
• Slip plane, direction and system, resolved shear stress
• Mechanism of plastic deformation
• Strengthening mechanisms
• Recovery, recrystallization, and grain growth
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Chapter 2 - 3
Plastic means permanent!
Plastic Deformation (Metals)
F
δ linear elastic
linear elastic
δ plastic
1. Initial 2. Small load 3. Unload
p lanes still sheared
F
δ elastic + plastic
bonds stretch & planes shear
δ plastic
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Chapter 2 - 4
Dislocation Motion Dislocations & plastic deformation • Cubic & hexagonal metals - plastic deformation by
plastic shear or slip where one plane of atoms slides over adjacent plane by defect motion (dislocations).
• If dislocations don't move, deformation doesn't occur!
Adapted from Fig. 7.1, Callister 7e.
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Chapter 2 -
Failure
• Ductile vs brittle fracture
• Stress concentrations and fracture toughness
• Creep and fatigue failure
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Chapter 2 -
Phase diagram
• Solubility limits, solidus, liquidus • Binary isomorphic and eutectic phase diagrams • Eutectic, peritectic, eutectoid reactions • Lever law, weight fraction of phases • Composition and microstructure of equilibrium phases
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Chapter 2 -
Aside: a touch of Thermodynamics
7
ΔG=ΔH-TΔS
Gibb’s free Energy
Entalpy~ Internal Energy
Entropy~ disorder~ probability
A transformation will occur spontaneously if ΔG is negative.
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Chapter 2 - 8
Phase Diagrams • Indicate phases as function of T, Co, and P. • For this course: -binary systems: just 2 components. -independent variables: T and Co (P = 1 atm is almost always used).
• Phase Diagram for Cu-Ni system
Adapted from Fig. 9.3(a), Callister 7e. (Fig. 9.3(a) is adapted from Phase Diagrams of Binary Nickel Alloys, P. Nash (Ed.), ASM International, Materials Park, OH (1991).
• 2 phases: L (liquid) α (FCC solid solution)
• 3 phase fields: L L + α α
wt% Ni 20 40 60 80 100 0 1000
1100
1200
1300
1400
1500
1600 T(°C)
L (liquid)
α (FCC solid solution)
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Chapter 2 - 9
Eutectoid & Peritectic • Eutectic - liquid in equilibrium with two solids
L α + β cool heat
intermetallic compound - cementite
cool heat
• Eutectoid - solid phase in equation with two solid phases S2 S1+S3
γ α + Fe3C (727ºC)
cool heat
• Peritectic - liquid + solid 1 solid 2 (Fig 9.21) S1 + L S2
δ + L γ (1493ºC)
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Chapter 2 -
The iron-iron carbide (Fe-Fe3C) phase diagram
• Ferrite-α -BCC, low C solubility(0.022%wt), magnetic
• Austenite-γ-FCC, high C solubility(2.14%wt), nonmagnetic
• Ferrite-δ-BCC • Cementite (Fe3C) • Eutectic, peritectic,
eutectoid • Iron, ferrite
(C<0.008wt%) • Stainless steel, α
+Fe3C (0.008-2.14wt%)
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Chapter 2 -
Phase transformation
• Nucleation/growth controlled phase transformation
• Diffusional vs diffusionless
• Rate of transformation
• Isothermal transformation diagrams
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Chapter 2 - 12
Phase Transformations Nucleation
– nuclei (seeds) act as template to grow crystals Driving force to nucleate increases as we increase ΔT In Δ T range close to Tm, rate of nucleation higher with higher Δ T
– supercooling (eutectic, eutectoid)
Small supercooling few nuclei - large crystals Large supercooling rapid nucleation - many nuclei,
small crystals
Growth Growth rate increases with T (thermally activated)
dG/dt= C exp (-Q/kT)
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Chapter 2 -
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Chapter 2 - 14
• Eutectoid composition, Co = 0.76 wt% C • Begin at T > 727°C • Rapidly cool to 625°C and hold isothermally.
Adapted from Fig. 10.14,Callister 7e. (Fig. 10.14 adapted from H. Boyer (Ed.) Atlas of Isothermal Transformation and Cooling Transformation Diagrams, American Society for Metals, 1997, p. 28.)
Effect of Cooling History in Fe-C System
400
500
600
700 Austenite (stable) TE (727°C)
Austenite (unstable)
Pearlite
T(°C)
1 10 10 2 10 3 10 4 10 5 time (s)
γ γ γ
γ γ γ
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Chapter 2 -
Thermal processing of metals and alloys
• Quenching & tempering, annealing, precipitation
• Precipitation hardening
• Factors that influence quenching
• Hardenability
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Chapter 2 - 16
0 10 20 30 40 50 wt% Cu
L α+L α
α+θ θ
θ+L
300 400 500
600 700
(Al)
T(°C)
composition range needed for precipitation hardening
CuAl2
A
Adapted from Fig. 11.24, Callister 7e. (Fig. 11.24 adapted from J.L. Murray, International Metals Review 30, p.5, 1985.)
Precipitation Hardening • Particles impede dislocations. • Ex: Al-Cu system • Procedure:
Adapted from Fig. 11.22, Callister 7e.
--Pt B: quench to room temp. --Pt C: reheat to nucleate small θ crystals within α crystals.
• Other precipitation systems: • Cu-Be • Cu-Sn • Mg-Al
Temp.
Time
--Pt A: solution heat treat (get α solid solution)
Pt A (sol’n heat treat)
B
Pt B
C
Pt C (precipitate θ)
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Chapter 2 -
Structures and properties of ceramics
• Imperfection in ceramics
• Ceramic phase diagrams
• Mechanical properties of ceramics
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Chapter 2 - 18
• Frenkel Defect --a cation is out of place. • Shottky Defect --a paired set of cation and anion vacancies.
• Equilibrium concentration of defects
€
~ e−QD / 2kT
Adapted from Fig. 12.21, Callister 7e. (Fig. 12.21 is from W.G. Moffatt, G.W. Pearsall, and J. Wulff, The Structure and Properties of Materials, Vol. 1, Structure, John Wiley and Sons, Inc., p. 78.)
Defects in Ceramic Structures
Shottky Defect:
Frenkel Defect
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Chapter 2 -
Polymer properties
• Hydrocarbon molecules – Saturated and unsaturated – Bonding – Melting point – Isomerism – mer, monomer, polymer
• copolymer, homopolymer, blockpolymer • molecular structures of polymers, molecular
weight • Mechanical properties of polymers • Crystallization, melting, and glass transition
phenomena • Thermoplastic and thermosetting polymers
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Chapter 2 - 20
Polymer Crystallinity Ex: polyethylene unit cell
• Crystals must contain the polymer chains in some way – Chain folded structure
10 nm
Adapted from Fig. 14.10, Callister 7e.
Adapted from Fig. 14.12, Callister 7e.
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Chapter 2 - 21
Polymer Crystallinity Polymers rarely 100% crystalline • Too difficult to get all those chains
aligned
• % Crystallinity: % of material that is crystalline. -- TS and E often increase with % crystallinity. -- Annealing causes crystalline regions to grow. % crystallinity increases.
Adapted from Fig. 14.11, Callister 6e. (Fig. 14.11 is from H.W. Hayden, W.G. Moffatt, and J. Wulff, The Structure and Properties of Materials, Vol. III, Mechanical Behavior, John Wiley and Sons, Inc., 1965.)
crystalline region
amorphous region
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Chapter 2 - 22
• General drawbacks to polymers: -- E, σy, Kc, Tapplication are generally small. -- Deformation is often T and time dependent. -- Result: polymers benefit from composite reinforcement. • Thermoplastics (PE, PS, PP, PC): -- Smaller E, σy, Tapplication -- Larger Kc -- Easier to form and recycle • Elastomers (rubber): -- Large reversible strains! • Thermosets (epoxies, polyesters): -- Larger E, σy, Tapplication -- Smaller Kc
Table 15.3 Callister 7e:
Good overview of applications and trade names of polymers.
Polymers
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Chapter 2 -
Composites
• Composites, matrix, dispersed phase
• Types of composites and characteristics of each
• Mechanical properties of composites including upper bound and lower bound of elastic modulus
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Chapter 2 - 24
Composite Survey
Large-
particle
Dispersion-
strengthened
Particle-reinforced
Continuous
(aligned)
Aligned Randomly
oriented
Discontinuous
(short)
Fiber-reinforced
Laminates Sandwich
panels
Structural
Composites
Adapted from Fig. 16.2, Callister 7e.
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Chapter 2 - 25
• Elastic modulus, Ec, of composites: -- two approaches.
• Application to other properties: -- Electrical conductivity, σe: Replace E in equations with σe. -- Thermal conductivity, k: Replace E in equations with k.
Adapted from Fig. 16.3, Callister 7e. (Fig. 16.3 is from R.H. Krock, ASTM Proc, Vol. 63, 1963.)
Composite Survey: Particle-III
lower limit: 1
E c = V m
E m + V p
E p
c m m upper limit:
E = V E + V p E p “rule of mixtures”
Particle-reinforced Fiber-reinforced Structural
Data: Cu matrix w/tungsten particles
0 20 4 0 6 0 8 0 10 0 150 20 0 250 30 0 350
vol% tungsten
E(GPa)
(Cu) ( W)
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Chapter 2 - 26
Metals Alloys
Graphite Ceramics Semicond
Polymers Composites /fibers
E(GPa)
Based on data in Table B2, Callister 7e. Composite data based on reinforced epoxy with 60 vol% of aligned carbon (CFRE), aramid (AFRE), or glass (GFRE) fibers.
Young’s Moduli: Comparison
109 Pa
0.2
8
0.6 1
Magnesium, Aluminum Platinum Silver, Gold Tantalum Zinc, Ti Steel, Ni Molybdenum
G raphite
Si crystal Glass - soda Concrete
Si nitride Al oxide
PC
Wood( grain)
AFRE( fibers) *
CFRE * GFRE*
Glass fibers only
Carbon fibers only
A ramid fibers only
Epoxy only
0.4 0.8
2 4 6
10 2 0 4 0 6 0 8 0 10 0
2 00
6 00 8 00 10 00 1200
4 00
Tin
Cu alloys
Tungsten
<100> <111>
Si carbide Diamond
PTF E HDP E
LDPE
PP
Polyester PS PET
C FRE( fibers) * G FRE( fibers)*
G FRE(|| fibers)* A FRE(|| fibers)*
C FRE(|| fibers)*
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Chapter 2 -
Electrical properties
• Intrinsic semiconductors • Extrinsic semiconductors • Energy band structure • Electric conductivity, resistivity and
mobility • Carrier concentration • P-N junctions and diodes
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Chapter 2 -
Various possible electron band structures
Metal (Cu) Metal (Mg) Insulator Semiconductor
Fermi energy Ef: the energy corresponding to the highest filled state at 0 K
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Chapter 2 - 29
Ohm’s Law Further definitions
J = σ ε <= another way to state Ohm’s law
J ≡ current density
ε ≡ electric field potential = V/ or (ΔV/Δ )
Current carriers • electrons in most solids • ions can also carry (particularly in liquid solutions)
Electron flux conductivity voltage gradient
J = σ (ΔV/Δ )
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Chapter 2 - 30
• Electrical conductivity and resistivity are: -- material parameters. -- geometry independent. • Electrical resistance is: -- a geometry and material dependent parameter. • Conductors, semiconductors, and insulators... -- differ in accessibility of energy states for conductance electrons. • For metals, conductivity is increased by -- reducing deformation -- reducing imperfections -- decreasing temperature. • For pure semiconductors, conductivity is increased by -- increasing temperature -- doping (e.g., adding B to Si (p-type) or P to Si (n-type).
Electrical Properties
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Chapter 2 - 31
Good Luck!