Although titanium (Ti) alloys possess unique properties that allow them to compete with
many other materials in advanced industries such as aerospace, marine and biomedical …

Abstract Currently, cutting-edge Additive Manufacturing techniques, such as Selective Laser
Melting (SLM) and Electron Beam Melting (EBM), offer manufacturers a valuable avenue …

Background This study investigated the biomechanical properties of a new plate used for the
treatment of posterolateral tibial plateau fractures using finite element analysis. Methods The …

Phosphogypsum-based materials have gained much attention in the field of road
infrastructure from the economic and sustainable perspectives. The Three-point bending …

The scarcity of experimental data poses a significant challenge when using FEM in
machining processes. Accurately selecting fracture energy is crucial for cutting force …

Multi-material co-extrusion is a complex thermo-mechanical forming process used to obtain
bimetallic billets. Its complexity is due to the combination of diffusion phenomena in the …

In modern times, titanium alloy has a great application prospect in the medical field. Still, the
pitiful machinability of titanium alloy material brings incredible difficulty to its ultra-precision …

The selection of the most suitable material is one of the key decisions to be made during the
design stage of a manufacturing process. Traditional approaches, such as Ashby maps …

This paper investigates the effect of rake angle, α, cutting edge radius, r, and feed rate, f, on
the cutting force and cutting zone temperature during orthogonal dry cutting of Ti6Al4V. A …