GTBL042-11 GTBL042-Callister-v3 October 4, 2007 11:59
2nd Revised Pages424 • Chapter 11 / Phase TransformationsTime (s)Temperature (°C)Temperature (°F)110102 103 104 105 106200400800600100012001400
Eutectoid temperatureAAA + F F + PA + BM + AM(start)
M(50%)
M(90%)50% B100 M0200300400500600700800A + F
+ PFigure 11.24
Isothermal
transformation
diagram for an alloy
steel (type 4340): A,
austenite; B, bainite;
P, pearlite; M,
martensite; F,
proeutectoid ferrite.
[Adapted from H.
Boyer (Editor),Atlas
of Isothermal
Transformation and
Cooling
Transformation
Diagrams, American
Society for Metals,
1977, p. 181.]Concept Check 11.2Cite two major differences between martensitic and pearlitic transformations.[The answer may be found at http://www.wiley.com/college/callister (Student Companion Site).]EXAMPLE PROBLEM 11.2Microstructural Determinations for Three Isothermal
Heat Treatments
Using the isothermal transformation diagram for an iron–carbon alloy of eu-
tectoid composition (Figure 11.23), specify the nature of the final microstruc-
ture (in terms of microconstituents present and approximate percentages) of
a small specimen that has been subjected to the following time–temperature
treatments. In each case assume that the specimen begins at 760◦C (1400◦F)
and that it has been held at this temperature long enough to have achieved a
complete and homogeneous austenitic structure.
(a)Rapidly cool to 350◦C (660◦F), hold for 10^4 s, and quench to room temper-
ature.
(b)Rapidly cool to 250◦C (480◦F), hold for 100 s, and quench to room temper-
ature.