E. Cerri et al., EVOLUTION OF MICROSTRUCTURE IN A MODIFIED 9CR-1MO STEEL DURING SHORT-TERM CREEP, Materials science & engineering. A, Structural materials: properties, microstructure and processing, 245(2), 1998, pp. 285-292
An investigation of the effect of creep exposure on the microstructure
of a 9Cr-1Mo alloy for steam tubing was performed. The samples were m
achined from a tube, austenised at 1323 K for 15 min and air cooled to
room temperature, followed by tempering at 1023 K for 1 h. Creep test
s were performed at 848, 873, 898 and 923 K for different loading cond
itions. The conventional power law was used to describe the minimum cr
eep rate dependence on applied stress; the stress exponent was found t
o increase when temperature decreased. Transmission electron microscop
y (TEM) of the crept samples showed that during creep both subgrain an
d particle size increased; the statistical analysis of the dimensions
of the precipitates revealed a bimodal distribution of particles that
coarsen during creep exposure at testing temperatures. A. linear depen
dence of subgrain size on the inverse of the modulus compensated stres
s was used to describe the softening of the dislocation substructure.
A. similar relationship was found to be also valid for particle carbid
es. (C) 1998 Elsevier Science S.A. All rights reserved.