GTBL042-13 GTBL042-Callister-v3 October 2, 2007 13:44
2nd Revised Pages528 • Chapter 13 / Types and Applications of Materials(a)(b)Vibrational amplitudeTi m eFigure 13.4 Comparison of the relative
vibrational damping capacities of (a) steel and
(b) gray cast iron. (FromMetals Engineering
Quarterly,February 1961. Copyright 1961
American Society for Metals.)ferrite, depending on heat treatment (Figure 13.5); it is normally pearlite for an as-cast
piece. However, a heat treatment for several hours at about 700◦C (1300◦F) will yield
a ferrite matrix as in this photomicrograph. Castings are stronger and much more
ductile than gray iron, as a comparison of their mechanical properties in Table 13.5
shows. In fact, ductile iron has mechanical characteristics approaching those of steel.
For example, ferritic ductile irons have tensile strengths ranging between 380 andCommercial cast iron rangeFast cool Moderate Slow cool
P + Fe 3 C P + Gf α + GfFe 3 CMg/CeCTemperatureModerate Slow cool
P + Gn α + GnReheat: hold at
~ 700 °C for 30 + hFast cool Slow cool
P + Gr α + GrWhite
cast ironPearlitic gray
cast ironPearlitic
malleableFerritic
malleableFerritic gray
cast ironPearlitic
ductile
cast ironFerritic
ductile
cast ironFigure 13.5 From
the iron–carbon
phase diagram,
composition ranges
for commercial cast
irons. Also shown are
schematic
microstructures that
result from a variety
of heat treatments.
Gf, flake graphite;
Gr, graphite rosettes;
Gn, graphite nodules;
P, pearlite;α, ferrite.
(Adapted from W. G.
Moffatt, G. W.
Pearsall, and J. Wulff,
The Structure and
Properties of
Materials,Vol. I,
Structure, p. 195.
Copyright©c1964 by
John Wiley & Sons,
New York.
Reprinted by
permission of John
Wiley & Sons, Inc.)