The influence of different soaking temperatures in the range 973-1623 K (be
low Ac-1 to above Ac-4) before oil quenching and tempering, on the microstr
ucture, hardness, grain size, and tensile properties of modified 9Cr- 1Mo s
teel has been studied. This was done in an effort to assess the tensile beh
aviour of the different microstructures likely to be encountered in the hea
t affected zone of a fusion welded joint of the steel. The steel developed
predominantly martensitic structure after quenching. Soaking of steel in th
e intercritical temperature range (between Ac-1 and Ac-3) reduced the prior
austenitic grain size and hardness, Soaking temperatures above Ac-3 increa
sed the grain size and hardness of the steel until the formation of delta f
errite at temperatures above Ac-4, The delta ferrite formation at soaking t
emperatures above Ac-4 reduced the grain size and hardness of the steel. Th
e tensile strength of the steel exhibited a minimum for soaking in the inte
rcritical temperature range where the ductility was highest, Strength incre
ased and ductility decreased with further increases in soaking temperatures
above Ac-3 The formation of delta ferrite at soaking temperatures above Ac
-4 improved the ductility, The tensile properties have been correlated with
the microstructures. (C) 2001 IoM Communications Ltd.