There is an increasingly urgent need of lightweight components in aerospace industry,
among which aluminum (Al) alloys have been the optimal materials of choice for aircraft …

Copper matrix composites doped with ceramic particles are known to effectively enhance
the mechanical properties, thermal expansion behavior and high-temperature stability of …

This work investigated the metastable pitting corrosion mechanism of laser powder bed
fusion (LPBF) produced Ti–6Al–4V. The passive films of samples were produced by …

Practical engineering applications of high-entropy alloys (HEAs) are limited owing to the
trade-off between their strength and plasticity. To address this limitation, herein, a …

The corrosion behavior of laser powder bed fusion produced (L-PBF-produced) titanium
alloys involving flowing body fluid is still unclear. Therefore, this work investigates in vitro …

Adding alloying elements to increase precipitation is a common method to strengthen
aluminum (Al) alloys, but an excessively high alloying element content causes segregation …

Abstract Al–Zn–Mg–Cu alloys that are prone to segregation and hot cracks always
encounter difficulty in manufacturing large-size workpiece with desirable strength-plasticity …

Depletion of solutes on particle-Al interfaces in particulates reinforced precipitate-hardening
Al composites was harmful to strength. A two-step strategy including bimodal structure …

Abstract An Al–Cu matrix composite reinforced with uniformly-distributed micron-and nano-
double-sized TiC particles (MNDS-TiC ps) was successfully fabricated using a wire and arc …

The wire-arc additive manufacturing (WAAM) was used to develop Ni-Al bronze (NAB) alloys
for naval application. Compared with as-cast NAB, the microstructure of as-fabricated NAB is …