Precipitation and age-hardening in the Fe–27Co–8Mo alloy

Abstract The principal focus of this work is to identify the microstructural changes occurring in the Fe–27Co–8Mo (mass%) alloy on aging. The constitution and microstructure of the alloy have been studied for aging treatments between 800 °C and 600 °C using X-ray diffraction, transmission electron microscopy and energy dispersive X-ray spectroscopy. For a long aging duration and for the highest temperatures, micrometric precipitates of μ phase are found preferentially at grain boundaries of the alloy. At lower temperatures, nanometric precipitates of R phase are observed inside the grains in addition to μ sub-micron precipitates at the grain boundaries. The μ precipitates show lattice parameters slightly different from the Fe 7 Mo 6 phase and contain a high density of crystalline defects. The first phases to come out from solid solution on heating the alloy at 600 °C are Mo rich precipitates with a cube–cube orientation and ordered domains. These nanometric phases bring a very high hardness to the alloy at the onset of aging.