The increase in strength usually accompanies by the sacrifice of ductility in the composites.
This work proposed a strategy of design and synthesis of in-situ TiB 2 particles to effectively …

Tuning solidification microstructure remains a grand challenge for ceramic particles
reinforced Al-Si based composites due to adverse interactions between ceramic particles …

The growing industrial needs for the development of strong load‐bearing materials by
powder metallurgy and casting technologies has led to recent progress in the synthesis of in …

In the present study, a novel silicon-aluminizing diffusion coating composed of uniform Ti (Al,
Si) 3 phase was manufactured on γ-TiAl alloy via post heat-treatment of cold-sprayed Al …

The distribution and size of particles in particle-reinforced aluminum matrix composites are
crucial to the mechanical properties of the composites. In this paper, 2 wt.% TiB 2/2195 …

Abstract A new Al–Si–Mg alloy was prepared and refined by C-doped TiB 2 (C-TiB 2) and
strengthened by SiC, and the effects of microstructure configuration on the mechanical …

In this study, the effects of the addition of Ti powder and T6 heat treatment on the
microstructure and the mechanical properties of A356-based composite containing 0.5, 1.5 …

In this study, aluminium‐silicon7‐magnesium alloy was reinforced with carbide ceramics
(silicon carbide and boron carbide) and coke microparticles. The composite samples (S1 …

Refinement and dispersion of rigid ceramic particles enhance the mechanical properties of
particulate reinforced aluminum matrix composites (PRAMCs). However, nanoparticles are …

Coarse α-Al dendrites and interdendritic networks of lamellar eutectic Si lead to low strength
of Al–Si–Mg alloys (eg A356). An effective approach involving high-pressure torsion (HPT) …