Crack formation is a common problem in ceramic additive manufacturing (CAM) process. In
this paper, the forming characteristics of indirect ceramic additive manufacturing (DCAM) …

Achieving lightweight, high-strength, and biocompatible composites is a crucial objective in
the field of tissue engineering. Intricate porous metallic structures, such as lattices, scaffolds …

In-situ multicomponent alloying in additive layer manufacturing shows inhomogeneous
elemental distribution. This study aimed to minimize this inhomogeneity in equiatomic …

Additive manufacturing of complex metallic parts is a topic of broad interest among
researchers as it is imperative for critical applications like aerospace parts and biomedical …

The development of traditional alloy materials has reached the bottleneck due to the
constructive interaction between strength and plasticity. Hence, novel alloy systems like …

As a 3D printing method, laser powder bed fusion (LPBF) technology has been extensively
proven to offer significant advantages in fabricating complex structured specimens …

Selective laser melting (SLM) is one of the metal additive manufactured technologies with
the highest forming precision, which prepares metal components through melting powders …

This work aims to develop Co and Ni-free Ti (C, N)–Fe-based cermets which are essential
for develo** cermets in the direction of green and low-cost materials. TiC and Ti (C, N) …

In this paper, spray granulation and radio frequency plasma spheroidization were used to
obtain spherical WC-Co powder for laser powder bed fusion from mixed WC and Co …

A novel method has been proposed to avoid the cracks in the Mar-M247 alloy manufactured
via selective laser melting (SLM) related to high cooling rate interacted with carbides and …