GTBL042-11 GTBL042-Callister-v3 October 4, 2007 11:59
2nd Revised Pages438 • Chapter 11 / Phase TransformationsAustenite+ a proeutectoid phasePearlite Bainite MartensiteTempered martensiteSlow
coolingModerate
coolingRapid
quenchReheatFigure 11.37
Possible
transformations
involving the
decomposition of
austenite. Solid
arrows,
transformations
involving diffusion;
dashed arrow,
diffusionless
transformation.Precipitation Hardening
The strength and hardness of some metal alloys may be enhanced by the formation of
extremely small uniformly dispersed particles of a second phase within the original
phase matrix; this must be accomplished by phase transformations that are induced
precipitation by appropriate heat treatments. The process is calledprecipitation hardeningbecause
hardening the small particles of the new phase are termed “precipitates.” “Age hardening” is also
used to designate this procedure because the strength develops with time, or as the
alloy ages. Examples of alloys that are hardened by precipitation treatments include
aluminum–copper, copper–beryllium, copper–tin, and magnesium–aluminum; some
ferrous alloys are also precipitation hardenable.Table 11.2 Summary of Microstructures and Mechanical Properties for Iron–Carbon Alloys
Mechanical Properties
Microconstituent Phases Present Arrangement of Phases (Relative)
Spheroidite αFerrite+Fe 3 C Relatively small Fe 3 C sphere-like
particles in anα-ferrite matrixSoft and ductileCoarse pearlite αFerrite+Fe 3 C Alternating layers ofαferrite
and Fe 3 C that are relatively
thickHarder and stronger than
spheroidite, but not as ductile
as spheroidite
Fine pearlite αFerrite+Fe 3 C Alternating layers ofαferrite
and Fe 3 C that are relatively
thinHarder and stronger than coarse
pearlite, but not as ductile as
coarse pearlite
Bainite αFerrite+Fe 3 C Very fine and elongated particles
of Fe 3 Cinanα-ferrite matrixHardness and strength greater
than fine pearlite; hardness
less than martensite; ductility
greater than martensite
Tempered
martensiteαFerrite+Fe 3 C Very small Fe 3 C sphere-like
particles in anα-ferrite matrixStrong; not as hard as martensite,
but much more ductile than
martensite
Martensite Body-centered
tetragonal, single
phaseNeedle-shaped grains Very hard and very brittle