Chapter 10- ISSUES TO ADDRESS... Transforming one phase into another takes time. How does the rate of transformation depend on time and T? 1 How can we.

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Chapter 10- ISSUES TO ADDRESS... Transforming one phase into another takes time. How does the rate of transformation depend on time and T? 1 How can we slow down the transformation so that we can engineering non-equilibrium structures? Are the mechanical properties of non-equilibrium structures better? CHAPTER 10: PHASE TRANSFORMATIONS

Chapter 10-2 Fraction transformed depends on time. Transformation rate depends on T. r often small: equil not possible! Adapted from Fig. 10.1, Callister 6e. Adapted from Fig. 10.2, Callister 6e. (Fig adapted from B.F. Decker and D. Harker, "Recrystallization in Rolled Copper", Trans AIME, 188, 1950, p. 888.) FRACTION OF TRANSFORMATION

Chapter Adapted from Fig. 9.21,Callister 6e. (Fig adapted from Binary Alloy Phase Diagrams, 2nd ed., Vol. 1, T.B. Massalski (Ed.-in-Chief), ASM International, Materials Park, OH, 1990.) TRANSFORMATIONS & UNDERCOOLING

Chapter 10-4 Growth of pearlite from austenite: Reaction rate increases with  T. Adapted from Fig. 9.13, Callister 6e. Adapted from Fig. 10.3, Callister 6e. EUTECTOID TRANSFORMATION RATE ~  T

Chapter 10-5 Reaction rate is a result of nucleation and growth of crystals. Examples: Adapted from Fig. 10.1, Callister 6e. NUCLEATION AND GROWTH

Chapter 10-6 Fe-C system, C o = 0.77wt%C Transformation at T = 675C. Adapted from Fig. 10.4,Callister 6e. (Fig adapted from H. Boyer (Ed.) Atlas of Isothermal Transformation and Cooling Transformation Diagrams, American Society for Metals, 1977, p. 369.) ISOTHERMAL TRANSFORMATION DIAGRAMS

Chapter 10-7 Eutectoid composition, C o = 0.77wt%C Begin at T > 727C Rapidly cool to 625C and hold isothermally. Adapted from Fig. 10.5,Callister 6e. (Fig adapted from H. Boyer (Ed.) Atlas of Isothermal Transformation and Cooling Transformation Diagrams, American Society for Metals, 1997, p. 28.) EX: COOLING HISTORY Fe-C SYSTEM

Chapter 10-8 T transf just below T E --Larger T: diffusion is faster --Pearlite is coarser. Two cases: T transf well below T E --Smaller T: diffusion is slower --Pearlite is finer. Adapted from Fig (a) and (b),Callister 6e. (Fig from R.M. Ralls et al., An Introduction to Materials Science and Engineering, p. 361, John Wiley and Sons, Inc., New York, 1976.) PEARLITE MORPHOLOGY

Chapter 10-9 Bainite: --  lathes (strips) with long rods of Fe 3 C --diffusion controlled. Isothermal Transf. Diagram Adapted from Fig. 10.9,Callister 6e. (Fig adapted from H. Boyer (Ed.) Atlas of Isothermal Transformation and Cooling Transformation Diagrams, American Society for Metals, 1997, p. 28.) (Adapted from Fig. 10.8, Callister, 6e. (Fig from Metals Handbook, 8th ed., Vol. 8, Metallography, Structures, and Phase Diagrams, American Society for Metals, Materials Park, OH, 1973.) NON-EQUIL TRANSFORMATION PRODUCTS: Fe-C

Chapter Spheroidite: --  crystals with spherical Fe 3 C --diffusion dependent. --heat bainite or pearlite for long times --reduces interfacial area (driving force) Isothermal Transf. Diagram Adapted from Fig. 10.9,Callister 6e. (Fig adapted from H. Boyer (Ed.) Atlas of Isothermal Transformation and Cooling Transformation Diagrams, American Society for Metals, 1997, p. 28.) (Adapted from Fig , Callister, 6e. (Fig copyright United States Steel Corporation, 1971.) OTHER PRODUCTS: Fe-C SYSTEM (1)

Chapter Martensite: --  (FCC) to Martensite (BCT) Adapted from Fig , Callister 6e. (Adapted from Fig , Callister, 6e. (Fig courtesy United States Steel Corporation.) Isothermal Transf. Diagram  to M transformation.. -- is rapid! -- % transf. depends on T only. (Adapted from Fig , Callister, 6e. OTHER PRODUCTS: Fe-C SYSTEM (2)

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

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

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

Chapter Adapted from Fig , Callister 6e. (Fig based on data from Metals Handbook: Heat Treating, Vol. 4, 9th ed., V. Masseria (Managing Ed.), American Society for Metals, 1981, p. 9.) Adapted from Fig. 9.27,Callister 6e. (Fig courtesy Republic Steel Corporation.) Adapted from Fig. 9.30,Callister 6e. (Fig copyright 1971 by United States Steel Corporation.) MECHANICAL PROP: Fe-C SYSTEM (1)

Chapter Adapted from Fig , Callister 6e. (Fig based on data from Metals Handbook: Heat Treating, Vol. 4, 9th ed., V. Masseria (Managing Ed.), American Society for Metals, 1981, pp. 9 and 17.) MECHANICAL PROP: Fe-C SYSTEM (2)

Chapter Fine Pearlite vs Martensite: Hardness: fine pearlite << martensite. Adapted from Fig , Callister 6e. (Fig adapted from Edgar C. Bain, Functions of the Alloying Elements in Steel, American Society for Metals, 1939, p. 36; and R.A. Grange, C.R. Hribal, and L.F. Porter, Metall. Trans. A, Vol. 8A, p ) MECHANICAL PROP: Fe-C SYSTEM (3)

Chapter reduces brittleness of martensite, reduces internal stress caused by quenching. Adapted from Fig , Callister 6e. (Fig copyright by United States Steel Corporation, 1971.) Adapted from Fig , Callister 6e. (Fig adapted from Fig. furnished courtesy of Republic Steel Corporation.) TEMPERING MARTENSITE

Chapter Adapted from Fig , Callister 6e. SUMMARY: PROCESSING OPTIONS

Chapter 10- Reading: Core Problems: Self-help Problems: 0 ANNOUNCEMENTS