Additive manufacturing (AM) especially laser additive manufacturing (LAM), a novel
manufacturing technique of layer-by-layer forming according to geometric model, provides a …

Ti-6Al-4V has been widely used in both the biomedical and aerospace industry, due to its
high strength, corrosion resistance, high fracture toughness and light weight. Additive …

Studies on additive manufactured (AM) materials have shown that porosity reduces the
fatigue strength. However, the quantitative impact is not well understood. This paper …

This paper investigates the cyclic elastoplastic anisotropy of Ti-6Al-4V manufactured via
selective laser melting, caused by different build orientations. Tensile monotonic and cyclic …

Porosity defects remain a challenge to the structural integrity of additive manufactured
materials, particularly for parts under fatigue loading applications. Although the wire+ arc …

The material of Ti–6Al–4V has been widely applied in various industries, such as
automobile, aerospace, and medical due to its high specific strength, superior thermal …

Ti-6Al-4 V (Ti64) alloy is majorly preferred for fabricating the parts in biomedical, aerospace
and automobile industries. Traditional manufacturing techniques are mostly involved in …

This study investigates the application of machine learning models to predict time-evolving
stress fields in complex three-dimensional structures trained with full-scale finite element …

This book chapter first explains some fundamentals of additive manufacturing of metals. The
scanning strategies and printing parameters in the framework of selective laser melting …

Ensuring high forming quality and performance of as-built components via laser powder bed
fusion (LPBF) additive manufacturing (AM) necessitates, meticulous consideration of the …