Authors:
Mahmoud Naim (1, 2), Mahdi Chemkhi (1, 2), Delphine Auzene (3), Elies Benammar (3), Valentin Maillet (2)
1- UR-LASMIS, University of Technology of Troyes, France
2- EPF School of Engineering, Rosières-Prés-Troyes, France
3- CRITT MDTS, Charleville-Mézières, France
Abstract:
Additive Manufacturing (AM) sinter-based technologies, particularly filament-based material extrusion (MEX) is gaining popularity for its simplicity and cost-effectiveness, mainly for the shaping by 3D printing, making metal additive manufacturing more accessible for industrial production. Even though this technique offers flexibility in material choices and great potential for fabricating high-quality parts, there is still a lack of research on the mechanical and surface properties of the MEX-ed H13 tool steel and the influence of the printing setup on them. In the present work, this literature gap will be filled by analyzing the surface roughness, density and tensile behavior of H13 tool steel parts that were constructed horizontally and on edge.
DOI:
https://doi.org/10.59499/EP246290825
