T. Petersmeier et al., CYCLIC FATIGUE LOADING AND CHARACTERIZATION OF DISLOCATION EVOLUTION IN THE FERRITIC STEEL X22CRMOV121, International journal of fatigue, 20(3), 1998, pp. 251-255
Isothermal cyclic deformation tests have been performed with the steel
X22CrMoV121 in the temperature range 20 degrees C less than or equal
to T less than or equal to 600 degrees C. The fatigue behaviour was re
lated to microstructural changes in the bulk material. The dislocation
density was determined for selected fatigue states by means of transm
ission electron microscopy. The material is characterized by cyclic so
ftening in the investigated temperature range. Increasing temperatures
and increasing stress amplitudes lead to an increase of the plastic s
train amplitudes and a corresponding reduction of the number of cycles
to failure. In the temperature range 250 degrees C less than or equal
to T less than or equal to 350 degrees C dynamic strain ageing proces
ses occur and maximum dislocation densities are observed. Generally th
e dislocation density decreases with increasing number of cycles and t
emperatures. (C) 1998 Elsevier Science Ltd.