Additive manufacturing (AM) is characterised by several unique advantages, such as
(freedom of) design, capability of fusing dissimilar materials, near-net-shape, and achieving …

Titanium alloys (Ti) are widely used in a number of industry sectors due to their outstanding
physical and mechanical properties. However, these properties result in high cutting forces …

Current industrial applications demand materials with customised features and site-specific
properties, and many such applications use bimetallic structures. Bimetallic structures offer …

The machining of nickel and titanium-based superalloy components is very expensive and
involves unusually high lead times compared with other engineering metals such as steels …

This paper shows the novel approach of Taguchi-Based Grey Relational Analysis of Ti6Al4V
Machining parameter. Ti6Al4V metal matrix composite has been fabricated using the …

Achieving the reasonable tool life, surface quality, and residual stresses in the
micromachining of difficult-to-cut materials is still a challenge. Titanium alloys are notorious …

The parts produced by additive manufacturing (AM) are not usually appropriate for direct
applications and require several post-processing operations. Micro-milling, as a most …

Ti6Al4V produced by selective laser melting (SLM) is replacing the use of casting
workpieces as it is a net-near shape process that can maintain its mechanical and …

The additive manufactured technology is widely applied to produce titanium alloy parts with
complex structures. The subsequent machining operations are necessary for additive …

Selective laser melting (SLM) is a three-dimensional (3D) printing process that can
manufacture functional parts with complex geometries as an alternative to using traditional …