Materials Research Express (Jan 2023)
Mechanical and microstructure evaluation of novel hybrid TiB2/B4C aluminium metal matrix composite
Abstract
In the current study, a novel approach that integrated in situ and ex situ reinforcement techniques was used to develop a hybrid AA7475 aluminium metal matrix composite (MMC). The primary objective of this study was to explore the viability of producing in situ TiB _2 particles and adding ex situ B _4 C particles as reinforcements in the same melt of the aluminium alloy AA7475, with the intention of using these ceramic fillers to improve the mechanical properties of bare AA7475. For in situ particle synthesis, salts such as K _2 TiF _6 and KBF _4 were used and for ex situ , B _4 C particles are utilized. The aluminium MMC was prepared using stir casting method and characterized using ASTM standards. For comparison, composite with only in situ TiB _2 particles and composite with only ex situ B _4 C particles were also fabricated. According to the results, the highest tensile strength of 156.57 MPa was achieved for the hybrid composite made using 5wt% of B _4 C and TiB _2 . Similarly, the highest hardness of 144.67 HV was observed for the same. However, the presence of both TiB _2 and B _4 C improved the hardness together. The microstructure shows highly refined phases of the matrix and also the formation of precipitates and reinforcements clearly. The EDAX and XRD confirm the intermetallics formation and dispersion of particles within the matrix material. This aluminium composite with improved properties could be used in automotive, aircraft and in defense sectors where lightweight and high strength materials are required.
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