This article reviews published data on the mechanical properties of additively manufactured
metallic materials. The additive manufacturing techniques utilized to generate samples …

Electron beam melting (EBM) is a rapidly-developing metal additive manufacturing process
that holds significant interest in the aerospace and biomedical industries for the high …

Predicting mechanical properties in metal additive manufacturing (MAM) is essential for
ensuring the performance and reliability of printed parts, as well as their suitability for …

Additive manufacturing (AM) can be seen as a disruptive process that builds complex
components layer upon layer. Two of its distinct technologies are Selective Laser Melting …

Additive manufacturing (AM) plays a crucial role in the manufacturing and development of
advanced materials including titanium alloys for engineering applications. During the last …

Abstract Hot Isostatic Pressing (HIP) is a technique of applying high pressures through a
fluid medium at high temperatures to enclosed powders, castings and pre-sintered metal …

Various additive manufacturing (AM) technologies have been used to fabricate Ti-6Al-4V.
The fatigue performance of Ti-6Al-4V varies from process to process. In this review, fatigue …

The restricted number of materials available for additive manufacturing (AM) technologies is
a determining impediment to AM growing into sectors and providing supply chain relief. AM …

Understanding the manufacturing process parameters and their correlation with final product
functional properties is needed to ensure performance in critical applications in the medical …

In the present work, microstructure and fatigue behavior of Electron Beam Melted (EBM) Ti–
6Al–4V have been systematically studied. Fatigue behavior was investigated using four …