Abstract

Pistons are commonly made from multicomponent Al–Si casting alloys, which have complex, interconnecting three-dimensional (3D) networks of secondary phase particles. They are non-serviceable parts and so must be able to withstand high cycle fatigue while operating at temperatures between 30 and 80% of T m . Long fatigue crack growth tests were performed at room temperature (RT) and 350°C to assess the micromechanisms of fatigue. The fracture profiles at low and high d a/d N were analysed; at low crack growth rates at both temperatures there is no crack path preferentiality with respect to the microstructure. At high d a/d N in the RT sample the crack growth occurs preferentially via hard particles, while at 350°C there is a change in mechanism and the crack appears to avoid hard particles. X-ray tomography has been used to image the crack tips and gain a detailed insight into the mechanisms of fatigue in these complex 3D microstructures.