Advanced Robotics, Mechatronics and Artificial Intelligence

Biography

Biography: Carmine Pirozzi

Abstract

The electron beam melting (EBM) is one of the most promising ALM technologies, which utilizes a high-energy electron beam, as a moving heat source, in order to melt and fuse (by rapid self-cooling) metal powder and produce parts in a layer-building fashion. Anyway many technical aspects concerning the quality of EBM produced components are still industrial open items and studies need to be carried out. The objective of this study is to evaluate the distribution and the features of porosity defects generated during the EBM process by using tomographic analysis, at this aim a simple test case, consisting in rectangular parallelepiped (50x10x10 mm) samples manufactured in Ti6Al4V, was chosen. A suitable DOE was developed in order to investigate the effect of the following intra-build process parameters on porosity: Samples orientation: samples were built according to n.4 different orientations: x, y, z (90°) and 45°. The x and y oriented samples were built horizontally and they were, respectively, parallel and perpendicular to the rake movement direction and the 90° oriented samples were built vertically. Height in the build chamber: the group of samples shown in 2b was built at n.3 different levels in the build chamber which are named hereafter: h1, h2 and h3. More in detail, h1 level starts at z=40 mm, h2 level starts at z=170 mm and h3 level starts at z=300 mm.