Abstract:
The term dual phase steels, or DP steels, refers to a class of high strength steels
which is composed of two phases; normally a ferrite matrix and a dispersed second
phase of martensite, retained austenite and/or bainite. DP steels were developed in
the 1970’s to respond to the need for new high strength steels without reducing the
formability or increasing costs. Dual phase steels are characterized by a
microstructure consisting of 75-85 vol% ferrite with the remainder being a mixture of
martensite, bainite, and retained austenite. They have better strength-ductility
combinations than ferrite-pearlite steels of equivalent tensile strength and are
presently being used commercially. These HSLA steels have a typical composition
of 0.12 %C, 1.7 %Mn, 0.58 %Si, 0.04 %V (Vanadium is used for microalloying). Their
microstructure is composed of islands of martensite embedded in a matrix of ferrite,
which is produced by giving the steel a “subcritical anneal” at ~800oC (in the two
phase g-a region) and then it is quenched to room temperature. Research on these
unique steels has increased exponentially since their development in the mid-1970s.
Present understanding of relationships between composition, microstructure, and
tensile properties is briefly reviewed, and some trends in developmental work
presented.
