CHAPTER 11: PHASE TRANSFORMATIONS

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Presentation transcript:

CHAPTER 11: PHASE TRANSFORMATIONS ISSUES TO ADDRESS... • Transforming one phase into another takes time. • How does the rate of transformation depend on time and T? • How can we slow down the transformation so that we can engineering non-equilibrium structures? • Are the mechanical properties of non-equilibrium structures better? 1

FRACTION OF TRANSFORMATION • Fraction transformed depends on time. • Transformation rate depends on T. • r often small: equil not possible! 2

TRANSFORMATIONS & UNDERCOOLING 3 3

EUTECTOID TRANSFORMATION RATE ~ DT • Growth of pearlite from austenite: • Reaction rate increases with DT. 4

NUCLEATION AND GROWTH • Reaction rate is a result of nucleation and growth of crystals. Adapted from Fig. 10.1, Callister 6e. • Examples: 5

ISOTHERMAL TRANSFORMATION DIAGRAMS • Fe-C system, Co = 0.77wt%C • Transformation at T = 675C. 6

EX: COOLING HISTORY Fe-C SYSTEM • Eutectoid composition, Co = 0.77wt%C • Begin at T > 727C • Rapidly cool to 625C and hold isothermally. 7

PEARLITE MORPHOLOGY Two cases: • Ttransf just below TE --Larger T: diffusion is faster --Pearlite is coarser. • Ttransf well below TE --Smaller T: diffusion is slower --Pearlite is finer. 8

NON-EQUIL TRANSFORMATION PRODUCTS: Fe-C • Bainite: --a lathes (strips) with long rods of Fe3C --diffusion controlled. • Isothermal Transf. Diagram 9

OTHER PRODUCTS: Fe-C SYSTEM (1) • Spheroidite: --a crystals with spherical Fe3C --diffusion dependent. --heat bainite or pearlite for long times --reduces interfacial area (driving force) • Isothermal Transf. Diagram 10

OTHER PRODUCTS: Fe-C SYSTEM (2) • Martensite: --g(FCC) to Martensite (BCT) • Isothermal Transf. Diagram • g to M transformation.. -- is rapid! -- % transf. depends on T only. 11

COOLING EX: Fe-C SYSTEM (1) Adapted from Fig. 10.15, Callister 6e. 12

COOLING EX: Fe-C SYSTEM (2) Adapted from Fig. 10.15, Callister 6e. 13

COOLING EX: Fe-C SYSTEM (3) Adapted from Fig. 10.15, Callister 6e. 14

MECHANICAL PROP: Fe-C SYSTEM (1) 15

MECHANICAL PROP: Fe-C SYSTEM (2) 16

MECHANICAL PROP: Fe-C SYSTEM (3) • Fine Pearlite vs Martensite: • Hardness: fine pearlite << martensite. 17

TEMPERING MARTENSITE • reduces brittleness of martensite, • reduces internal stress caused by quenching. 18

SUMMARY: PROCESSING OPTIONS 19

PRECIPITATION HARDENING • Particles impede dislocations. • Ex: Al-Cu system • Procedure: --Pt A: solution heat treat (get a solid solution) --Pt B: quench to room temp. --Pt C: reheat to nucleate small q crystals within a crystals. • Other precipitation systems: • Cu-Be • Cu-Sn • Mg-Al 20

PRECIPITATE EFFECT ON TS, %EL • 2014 Al Alloy: • TS peaks with precipitation time. • Increasing T accelerates process. • %EL reaches minimum with precipitation time. 21

STRENGTHENING STRATEGY 3: PRECIPITATION STRENGTHENING • Hard precipitates are difficult to shear. Ex: Ceramics in metals (SiC in Iron or Aluminum). • Result: 24

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