Metal additive manufacturing (AM) refers to any process of making 3D metal parts layer-
upon-layer via the interaction between a heating source and feeding material from a digital …

The properties and serviceability of 3D-printed metal parts depend on a variety of attributes.
These include the chemical composition, phases, morphology, spatial distributions of grain …

In recent years, the industry has required critical parts with excellent high-temperature
resistance, wear resistance, corrosion resistance, and other properties. Preparing high …

Conformal cooling channels (CCCs) are employed to improve the cooling rate due to the
equal distance from the mold surface. CCCs play a key role in mold injection productivity by …

The H13 steel was formed by selective laser melting process, and the as-deposited samples
were cryogenically treated at-196° C and tempered at a low temperature of 200° C …

It is attractive to fabricate molds and dies using additive manufacturing (AM) technology
because the increased freedom of design makes higher cooling efficiency possible …

The purpose of this study aimed to examine how build orientation and heat treatments affect
microstructure, and consequently, the mechanical properties obtained from tensile and …

The paper focuses on researching the effect of fatigue loading on metallic structure, lifetime,
and fracture surface topographies in AISI H13 steel specimens obtained by selective laser …

Additively manufactured steel components are gaining prominence due to their design
versatility, reduced material waste, and rapid prototyping advantages. However, it is …

A new Powder-bed Arc Additive Manufacturing (PAAM) processing which includes on-line
remelting of deposited material has been developed for the manufacturing of high entropy …