Thermal Plasma Spheroidization and Characterization of Stainless Steel Powders Using DC Plasma Technology

Abstract

Abstract The production of spherical powders has recently registered a boost due to the need of fabricating new printing materials for Additive Manufacturing applications, from polymers and resins to metals and ceramics. Among these materials, stainless steels powders play a leading role, since they are widely used in industry and everyday life; indeed, micron-sized spherical stainless-steel powders have specific characteristics and are considered as one of the best candidates for Additive Manufacturing systems and for the application in a wide range of sectors. In this paper, stainless steel 316L powders were used to explore and identify the best process parameters of a thermal plasma process able to produce spherical powders for Additive Manufacturing applications. X Ray Diffraction, Scanning Electron Microscopy and Flowability analysis were performed to characterize reagents and products. Powders with high circularity (> 0.8) and improved flowability (< 30 sec / 50g) were successfully obtained. The collected results were compared with data available in the literature to identify the potential use of the spherical produced powders.