This paper addresses the elastic-plastic behavior of type 316 stainless steel, one of the
major structural alloys used in liquid-metal fast breeder reactor components. The study was …

The study aimed to evaluate the tensile strength of additively manufactured (AMed) IN 625
using sub-sized test pieces and compare them to standard specimens. Cylindrical round …

Additive manufacturing (AM) builds materials layer upon layer with the aid of an energy
source. During AM processing, the complex thermal behaviors—directional heat flux, rapid …

In the field of welding, assembly of thick parts requires the base metal to be chamfered,
followed by multipass welding. The process generates thermal, mechanical, and …

Highlights•Microstructure and mechanical behavior are controlled by changing the printing
strategy.•Weaving motion yields a unique fusion zone, the sharpest texture & the best …

The effect of build geometry and orientation on the microstructure and mechanical properties
of additively manufactured AISI 316L stainless steel was studied. For this an integrated laser …

In this work, we examined the influence of different types of selective laser melting (SLM)
devices on the microstructure and the associated material properties of austenitic 316L …

Metal specimens were fabricated via the fused deposition of metals (FDMet) technique with
a filament composed of the 316L stainless steel particles and an organic binder. This …

Abstract Wire Arc Additive Manufacturing (WAAM) is an emerging group of methods for
producing large parts with complex geometries and varying wall thicknesses. These parts …

The tensile properties of additively manufactured (AM) metals and alloys are among the
most important variables that impact the potential applications of these materials. Here we …