The microstructures and fatigue crack growth rates (FCGRs) of EH36 thermo-m
echanical control process (TMCP) steel weldments were investigated. The sma
ll increase in hardness of the heat-affected zone (HAZ) in the as-welded co
ndition could be attributed to the low carbon equivalent (CE) of the steel.
Hence, the improved HAZ toughness of EH36 welds could be anticipated. Micr
ostructural observations indicated that the coarse-grained HAZ was composed
of mainly lower bainite with some upper bainite. Fine-grained HAZ consiste
d of refined ferrite and bainite, together with interlath microphases. Alth
ough the impact toughness of specimens varied significantly with orientatio
ns with respect to the rolling direction, however, only minor change in FCG
Rs of the TMCP steel plate had been found. The lower FCGRs of the HAZ than
those of the steel plate could be attributed to the formation of low-carbon
bainite with high toughness, regardless of the postweld heat treatment (PW
HT). The evidence showed that the TMCP steel weld after tempering at 600 de
grees C for 2 h possessed a slightly better resistance to crack growth than
the steel plate. (C) 1999 Elsevier Science Ltd. All rights reserved.