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Precipitation Hardening
CHE 333 Class7 Precipitation Hardening
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Precipitation Hardening
NEXT WEEKS LAB . A WRITTEN REPORT WILL BE REQUIRED ALONG WITH A GROUP VERBALREPORT. USE THE WEBSITE TO SEE THE STRUCTURE FOR THE REPORTS. PRECIPITATION HARDENING is a NON EQUILIBRIUM heat treatment procedure. Process involves a solution heat treatment, that is transformation to a single phase, followed by a quench, again to suppress a phase transformation. The major difference between age hardening and martensite transformation is that the high temperature phase is retained to low temperatures.
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Phase Diagram for Age Hardening
Need single phase region Solution treat in a zone, hold for a period of time so b phase dissolves. Upon quench to below solvus, phase diagram predicts a+b should be present. However, quench suppresses b phase formation, so only a phase at room temperature. Conditions for age hardening. Alloy system Single Phase region and a two phase region 3. Decreasing solid solubility with temperature Slugish diffusion of solute. Aluminum alloys, copper alloys, steels,
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Processes Solution treat in single phase region
then quench. At room temperature, only a phase is present. The phase diagram predicts a+b, so no b. Composition of single phase a at low temperature is then the average, as it cannot follow the a>a+b solvus. The a has considerably more of element b in it than the phase diagram suggests. It is know as a “Super Saturated Solid Solution” It is again a metastable phase in some cases.
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Time Temperature History
Thermal history for an aluminum alloy age hardening sequence is shown. After quench, an ageing treatment is applied. The ageing treatment involves heating the material into the two phase regions of the equilibrium phase diagram. The thermal energy allows atoms and vacancies to move around and form new phases. This is called the ageing sequence. The first phases formed are not the equilibrium ones.
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Phase Sequence The first phase to form is often called GP zones after Guinier and Preston. GP zones are clusters of solute atoms, with the same crystal structure as the single phase, FCC for aluminum alloys. Al nm, Cu 0.128nm atomic radius
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Phase Transformations
After the first GP zones are formed, for the Al-Cu system a second GP zone occurs which also has a FCC structure. This is the q” phase. For Al-Cu there is a further phase the q’ phase which is an ordered structure consisting of eight FCC unit cells to form a cube. The lattice parameters are a=b= 4.04A, c =5,8A
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Properties The properties are a function of structure, which is controlled by the ageing time and temperature. GP zones are FCC and have the same slip system as the FCC a phase – called underaged. The q” phase are ordered strutures and harden more. The q’ phase hardens as it also an ordered stucture, but overages.. Optimum properties come from the q”and q’ phase combination prior to overaging.
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Structures GP zones in Al-4%Cu, 540C for 1hour 130C for 16 hours
1,000,000 mag {100} planes, 100A diam 10% atomic diameter difference growth as plates. GP zones Al-16%Ag 520 C 160C for 5 days 200,000 mag Minimal strain, spheres
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Peak and Over Aging q” in Al-4%Cu 540C 130C for 24 hours 800,000 mag
Plates on {100} q’ in Al-4%Cu 540C solution treatment 160C for 72 hours 25,000 mag.
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