Three 316L stainless steel materials are studied and reported upon; wrought, as-built
additively manufactured (AM), and heat-treated AM material. The AM material was produced …

In situ neutron diffraction measurements were completed during tensile and compressive
deformation of stainless steel 304L additively manufactured (AM) using a high power …

The underlying cause of mechanical anisotropy in additively manufactured (AM) parts is not
yet fully understood and has been attributed to several different factors like microstructural …

Charpy test specimens were additively manufactured (AM) on a single stainless steel plate
from a 17–4 class stainless steel using a powder-bed, laser melting technique on an EOS …

The present paper aims to contribute to the understanding of the process-(micro) structure-
property linkage in additively manufactured materials. The scanning pattern effects on the …

Abstract Structure–property relationships of an additively manufactured 316L stainless steel
were explored. A scanning electron microscope and electron backscattered diffraction …

In this paper, the anisotropic mechanical response triggered by specific microstructures
encountered in wire+ arc additively manufactured 316L stainless steels is analyzed. For this …

In-situ electron backscatter diffraction of low stacking fault energy 316L austenitic stainless
steel was carried out in tension to study the evolution of microstructure and micro-texture as …

Among the additive manufacturing processes, selective laser melting has gained wide
popularity for manufacturing austenitic stainless steel (316L) due to the inherent advantages …

Combined in-situ neutron diffraction measurements during post-processing heat treatment
and thermo-mechanical crystal plasticity finite element (CPFE) simulations were utilized to …