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C9
alloys
36
Science
Undergraduate 3
06/01/2011

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Term
What is recovery? How does this change mechanical properties? electrical properties?
Definition
When a cold-worked sample is annealed by heating to .3Tm, its stored internal strain energy is reduced as excess dislocations glide and climb to form networks of sub-grains within the original elongated deformed grains(also, some dislocations of opposite sign may annihilate each other). As the overall dislocation density is not changed much, the strain energy is not reduced and so the mechanical properties don't change. conductivity s recovered and resistivity decreases
Term
What is recrystallization?
Definition
- occurs at T> .6~.7 Tm
- favorably oriented sub-grains grow forming new, equiaxed grains
Term
What determines the final recrystallization grain size?
Definition
1) the extent of original cold-work
2)alloying additions which will either be present in solid solution leading to solute drag or will form second-phase precipitates leading to Zener drag
Term
What properties must precipitates have in order to pin dislocations? Why?
Definition
They must be finely disperse. Otherwise, if precipitates coarsen, you might get Orowan bowing
Term
How do you form fine precipitates in alloys? Give an example of characteristic temperatures associated with each of the steps.
Definition
1) hold at a temperature to attain complete solid solution
2) quench to maintain solid solution
3)age at a slightly elevate temperature which is below the solvus temperature
for Al-4wt%Cu Tage~160C, Tsolvus~550C
Term
Where does precipitation preferentially occur?
Definition
grain boundaries, dislocations, vacancies, near impurities
Term
What are PFZs?
Definition
Precipitation Free Zones, these occur adjacent to grain boundaries, since there are lower vacancy concentrations there.
Term
What re some problems associated with PFZs?
Definition
- PFZs are softer or weaker, so deformation may be localized along PFZs leading to failure.
-you can get localized corrosion at PFZs due to the formation of an electrochemical cell
Term
How can you minimize the with of PFZs?
Definition
- quench so that you have an excess of vacancies
- heat at low ageing temperatures to promote initial metastable precipitates as formation of these is less dependent on the number of vacancies because precipitates are coherent and have a smaller nucleation barrier
- raise ageing temperature slightly to grow more stable precipitates and to optimise strength by cntrol of precipitate size, coherence and spacing
Term
What is dispersion strengthening based on?
Definition
introducing fine, insoluble particles into an alloy during alloy fabrication in order to avoid problems with pecipitate coarsening.
Term
What favors grey cast irons?
Definition
high C or Si content ad slow cooling rates
Term
If you have a hypereutectoid cast iron, what would you expect?
Definition
-graphite flakes to form when the temperature falls below the liquidus line
-a graphite-gamma eutectic to form at eutectic temperature
-upon cooling bellow eutectic; rejection of C from the solid solutin
- transformation to pearlite at eutectoid temperature
Term
What properties do graphite flakes in grey cast irons give rise to?
Definition
- good surface definition due to its volume expansion upon solidification
-acts as a lubricant for cutting tools
- act as stress concentrators and interconnected leading to easy crack propagation
Term
What does addition of Mg or Ce to grey cast irons do? What are possible reasons for this?
Definition
causes graphite to form as spherical nodules rather than interconnected flakes this rsults in increased toughness.
Possible reasons:
Mg or Ce impurities poison the preferred growth sites by attaching to the edges of the graphite planes
2)alters surface energies
Term
How can you prevent the formation of brittle interconnected Si plates in cast irons?
Definition
by adding Na
Term
What are white cast irons?
Definition
hypo-eutectoid or low C low Si content cast irons and fast cooling rates. fast cooling rates favors the formation of cementite over graphite
Term
Compare the properties of white and grey cast irons.
Definition
-White cast irons are harder and more wear resistant
- white cast irons are brittle while grey cast irons are more ductile
Term
What are steels? cast irons?
Definition
steels have carbon contents of up to 1.5 wt% while cast irons have 2-4wt% C content
Term
What are the 3 types of stainless steels? What is the addition added to stainless steels? Why?
Definition
Cr is added to stainless steels to confer corrosion resistance.
three categories:
ferritic (Cr with low Ni)
austenitic (Cr with higher Ni e.g 18wt%)
martensitic ( as ferritic but higher C content)
Term
What alloying additions stabilize ferrite in steel? austenite?
Definition
Cr and Si stabilize ferrite; C, Ni, and Mn stabilize austenite
Term
Precipitation from a supersaturated solid-solution is generally associated with strengthening. Why?
Definition
As in Al- Cu systems you get an increased interaction of dislocations with precipitates. dislocation pinning
Term
What happens to the strength when you temper a martensite. Why? What does this allow for?
Definition
The strength goes down because even though you form precipitates there is a significant reduction in the internal strain energy. Tempering, therefore, allows you to control the yield strength ductility, and toughness
Term
What is secondary hardening? How does it affect properties?
Definition
Secondary hardening occurs in steels that are tempered around 600C and is due to formation of stable carbides of Cr, Mo, W, Nb, or V. This gives rise to an increase in yield strength, wear resistance, and creep resistance.
Term
How does upper bainite form? lower bainite?
Definition
upper bainite:
- ferrite forms at austenite grain boundaries on cooling and grows into the austenite by a shear mechanism
- ferrite is a late-like form; fine scale
- C diffuses to the ferrite/ austenite interface where fine cementite crystals nucleate and grow
Lower bainite
-insufficient time for C to diffuse to ferrite/ austenite interface > fine cementite precipitates nucleat and grow in the ferrite
Term
What are the 3 principal effects of alloying additions on the TTT diagrams of steels?
Definition
- temperatures at which phases nucleate
- rates of nucleation and growth
- relative stabilties of various phases
Term
What are some common Al alloys used in cast products?
Definition
Al- 12wt% Si (eutectic) and Al-Zn
Term
Why is adding Si to Al useful?
Definition
Si has diamond structure and therefore compensates fr shrinkage
Term
In Al alloys how can you achieve a microstructure with fine Si needles instead of Si plates?
Definition
By adding ~.2wt% Na
Term
What are 1xxx Al alloys? 2xx? 3xxx? 4xxx? 5xxx? 6xxx? 7xxx? 8xxx?
Definition
1xxx- pure Al; 2xxx- Cu; 3xxx- Mn; 4xxx- Si; 5xxx-Mg; 6xxx- Mg&Si; 7xxx- Mg&Zn; 8xxx- Li
Term
What are possible strengthening mechanisms?
Definition
work-hardening; solid-solution hardening; grain size control; two-phase alloys; precipitates of optimized size and coherency; oxide-dispersion strengthening
Term
What are GP zones? GP1? GP2?
Definition
metastable precipitates that form in Al-Cu alloys during the initial ageing. GP1- the first metastable precipitate to form in the Al matrix. it takes thr form of a Cu plate fully coherent with the Al matrix (~10nm in diameter ~.5nm thick). GP2- a tetragonal precipitate (~15nm diameter plate .8nm thick)
Term
What is the problem with precipitate dispersions that are too fine? too coarse?
Definition
too fine- they can easily be cut by dislocations; too coarse- dislocations can bow between precipitates
Term
What are the advantageous properties of Ti alloys? What applications does this lend Ti alloys too?
Definition
- extremely high strength to weight ratios
- excellent mechanical properties
- very good corrosion resistance
applications:
- aerospace:compressor blades other parts in gas turbine engines, airframes
- energy generation- nuclear fuel plants; heat exchangers
- chemical: food processing plants
- medical: prostheses such as hip implants
Term
What are the phases that Ti can exist as?
Definition
T<882 C: alpha phase
T>882C beta phase
Term
What are Widmanstatten alpha laths? What important Titantanium alloy are they present in?
Definition
THis is a "basket-weave" structure that results from slow cooling of the beta phase; it has good strength, toughness, and fatigue resistance. This is important in Ti-6 Al -4V. This allow shows superplasticity.
Term
What is superplasticity?
Definition
The ability to deform up to ~800% at temperatures f ~.6T/Tm
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