Abstract
Al/B4C composites with various volume contents of B4C (5%, 10%, 15%, 20%, and 25%) reinforcing the Al matrix, have been fabricated by vacuum hot press sintering at 680°C, with a soaking time of 90min and external pressure of 30MPa. Mechanical properties, phase composition, and microstructure of the Al/B4C composites are discussed to reveal the physical properties of the composites. Field emission transmission electron microscopy and selected area electron diffraction have been employed to verify the interior structure and crystal growth direction, respectively. The Vickers hardness, fracture strength, tensile strength, and maximum force attained the optimal values of 108.45 ± 4.02 HV, 585.70 ± 23.26MPa, 196.18 ± 2.48MPa, and 4.44 ± 0.17kN, respectively, for 25vol% B4C/Al composites. The static compression strength increased before the 15vol% B4C addition and then decreased, acquiring the highest value of 292.15 ± 2.09MPa for 15vol% B4C/Al composites. In general, the relative density and ductility of these composites consistently increased, with an increase in the volume content of Al, achieving a maximum of 99.22% and 54.63 ± 7.34%, respectively, for 5vol% B4C/Al composites.
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