The results of an investigation of the inhomogeneity of the mechanical properties of stainless
steel rods after drawing are presented in this paper, the properties investigated including the …

The Air Force (AF) is interested in exploring how additive manufacturing (AM) may benefit
the design and construction of aerospace structures. The AM process is capable of easily …

In the present work, the austenitic stainless steel 316L is used for determining the forming
limit diagrams (FLDs) at hot forming conditions. Firstly, the theoretical prediction of flow …

Additive manufacturing (AM) is a relatively new manufacturing method that can produce
complex geometries and optimized shapes with less process steps. In addition to distinct …

We report that 316L austenitic stainless steel fabricated by direct laser deposition (DLD), an
additive manufacturing (AM) process, have a higher yield strength than that of conventional …

Stainless steel 316L alloy with a complete austenite phase was manufactured using the
Laser Engineered Net Shaping (LENS) technique. The microstructure of LENS-316L from …

Additive manufacturing (AM) technology provides unique opportunities for producing net-
shape geometries at the macroscale through microscale processing. This level of control …

In additive manufacturing, the process parameters have a direct impact on the microstructure
of the material and consequently on the mechanical properties of the manufactured parts …

Mechanical properties of as-printed 316L stainless steel thin-walled structures obtained by
directed energy deposition are investigated. In-situ tensile and fracture tests are performed …

High strain rate deformation is characterized by strain localization and formation of adiabatic
shear bands (ASBs), as opposed to the movement of slip systems seen in quasistatic …