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Effect of tungsten carbide on Al6061/SiC hybrid metal matrix composites

Vijay P, Brahma Raju K.V., Ramji K., Kamaluddin S

Composites Theory and Practice

2021

R. 21, nr 4

169--180

Aluminium matrix composites (AMC) are mostly preferred for their high specific strength, high ductility, corrosion resistance and creep resistance. Various experimental investigations are conducted in the field of AMCs, which are widely applicable in several fields like aerospace (especially aircraft structures and fittings), marine fittings, automotive industries (connecting rods, pistons, brake rotors, and engine blocks), etc. The current work presents the effect of a tungsten carbide (WC) reinforced Al6061/SiC hybrid composites. In this study, the WC particle (3÷5 μm) content is varied from 0 to 6 wt.% in steps of 2 wt.%, while keeping the SiC particle (63 μm) content of 5 wt.% constant. The stir casting method was used to prepare these composites and the behaviour of the composites was studied to ascertain their mechanical and corrosion properties. From the obtained results, it was observed that the ultimate tensile strength, hardness, and corrosion resistance of the composites are enhanced by increasing the content of WC, whereas the wear loss (microns) decreased as the WC was increased up to 4 wt.%; later it increased drastically at 6 wt.% WC. The corrosion results reveal that the corrosion rate of the composites is lower than that of the monolithic alloy. SEM examination of the tensile fracture surface shows that there is a formation of larger shear lips in the base alloy and the composite with 5 wt.% SiC; however, they are reduced gradually by the additions of WC to the composite. The microstructure of the corroded surfaces reveals that the pit density was reduced for the composite with 6 wt.% WC compared to the other composites.

Impact of heat treatment on the mechanical performance of hot extruded Al6061-BN reinforced metal matrix composites

Mukesh Y. B., Naik Prem Kumar, R Raghavendra Rao, Vishwanatha N. R., Prema N. S., Girish H. N., Laxmana Naik L., Madhusudan Puttaswamy

Bulletin of the Polish Academy of Sciences. Technical Sciences

2021

Vol. 69, nr 3

art. no. e137014

Boron nitride (BN) reinforced Al6061 aluminum-based composites are synthesized by conventional stir casting method followed by exposure to hot extrusion. The optical images confirmed the distribution of BN nanoparticles in the aluminum alloy matrix. The concentration of BN is varied from (0.5, 1.5, 3, 4.5, 6, 7.5, and 9 wt%) in the composites and its effect on the tensile strength was investigated. The results revealed that both extruded and heat-treated composites specimens showed enhanced toughness and tensile strength by increasing BN nanoparticle concentration. The heat-treated composite samples showed lower flexibility of up to 40%, and further, it exhibited 37% greater hardness and 32% enhancement in tensile strength over the extruded sample. The tensile properties of Al6061-BN composites were evaluated by temperature-dependent internal friction (TDIF) analysis and the results showed that the as-prepared composite's strength increased with temperature.