Investigation of Al-B4C Metal Matrix Composites Produced by Friction Stir Additive Processing

Aluminium-boron carbide metal matrix composites (Al-B4C MMCs) belong to the class of materials extensively used in the nuclear industry as a thermal neutron absorber in spent fuel casks. This article investigates a novel production method of Al-B4C MMCs-Friction Stir Additive Processing (FSAP)-as an alternative production method to casting or sintering. FSAP is derived from friction stir welding, which can be used to local modifications of microstructure, or it can be used to incorporate the second phase into the processed material. During this study, a variant of FSAP for MMC production was proposed, and its mechanical and thermal neutron absorbing properties have been investigated. Further, the influence of neutron irradiation on mechanical properties has been studied. Results show that FSAP can successfully produce Al-B4C MMCs with 7 mm thickness. Neutron irradiation causes only a slight increase in hardness, while its effect on tensile properties remains inconclusive.

Automated summary

This study investigates the production of aluminium-boron carbide metal matrix composites (Al-B4C MMCs) using Friction Stir Additive Processing (FSAP), showing successful production and evaluating the mechanical and thermal neutron absorbing properties. Neutron irradiation leads to a slight increase in hardness, while its effect on tensile properties remains inconclusive.