Spark Plasma sintering is an excellent technique for develo** ceramic-reinforced
binary/ternary nickel and titanium metal matrix composites (MMCs). This review analyzes the …

In situ composite manufacture is an approach to improve interfacial adhesion between
matrix and reinforcements, in which reinforcements are synthesized along composite …

In this study, monolithic pure Ti and Ti-6Ni-xTiCN composites were fabricated by the spark
plasma sintering method and the mechanical and anti-wear characteristics of the fabricated …

In order to obtain low cost, high-performance titanium matrix composite materials, first
principle calculations and selective laser melting (SLM) experiments were conducted. Firstly …

Titanium metal matrix composite microlattices are fabricated using 3D ink extrusion printing
and sintering. The inks consist of TiH 2+ TiB 2 or TiH 2+ TiC powder blends to form (i) Ti-TiB …

Abstract A TiB 2–Ti 3 AlC 2 ceramic was manufactured by spark plasma sintering at 1900° C
temperature for 7 min soaking time under 30 MPa biaxial pressure. The role of Ti 3 AlC 2 …

This study introduces an innovative alloy design strategy by integrating HEAs principles to
develop CoNi-based high entropy superalloys (HESAs). The powder of designed HESA …

To enhance the wear resistance of the Ti6Al4V alloy surfaces, four TiB-reinforced titanium
matrix composite (TMC) coatings were in-situ synthesized via laser cladding. This study …

Interpenetrating phase composites are a novel class of heterogeneous structures that have
recently gained attention. In these types of composites, one of the phases is topologically …

As an ultra-high-temperature ceramic (UHTC), TiB 2 possesses many magnificent
advantages, such as high melting point, great hardness, good wear resistance, good …