Effect of Building Orientations and Heat Treatments on Alsi10mg Alloy Fabricated by Selective Laser Melting: Microstructure Evolution, Mechanical Properties, Fracture Mechanism and Corrosion Behavior
Citation
TARAKÇI, Gürkan, Hamaid Mahmood KHAN, Mustafa Safa YILMAZ & Gökhan ÖZER."Effect of Building Orientations and Heat Treatments on Alsi10mg Alloy Fabricated by Selective Laser Melting: Microstructure Evolution, Mechanical Properties, Fracture Mechanism and Corrosion Behavior"Rapid Prototyping Journal,(2022).Abstract
Purpose – The present paper aims to systematically investigate the influence of building orientations (0°, 15°, 30°, 45°, 60°, 75°) and heat
treatment processes on the macro-/micro-structural, mechanical and electrochemical behaviors of selective laser melting (SLM) prepared AlSi10Mg
alloy parts.
Design/methodology/approach – AlSi10Mg samples were produced by the SLM method using standard processing parameters at 0°, 15°, 30°,
45°, 60° and 75° building angles. The effects of building orientations on the physical, mechanical and electrochemical properties of the alloy were
investigated.
Findings – With the increase in the building orientation from 15° to 75°, the structural defects were found reducing. The effect of step size of
inclined geometries was found to significantly influence the mechanical and electrochemical properties of the AlSi10Mg samples. Tensile strength
for samples fabricated at lower angles (0°, 15°, 30°) reported a drop of approximately 11% than SLM 0° samples. Moreover, the tensile strength
was found to decrease from 412.35 6 9.568 MPa for the as-built samples to 290.48 6 12.658 MPa, whereas the fracture strain increases from
3.32 6 0.56% to 5.6 6 0.6% when the as-built sample was treated with T6 treatment. This study indicates that the microstructure and mechanical
properties of SLM-processed AlSi10Mg alloy can be tailored by a suitable heat treatment or building angle.
Originality/value – Microstructural and mechanical behavior of horizontal or vertically built SLM components have already been demonstrated
several times. However, the influence of different building orientations, such as 0°, 15°, 30°, 45°, 60°, 75°, has not been explored in-depth,
particularly on corrosion and general mechanical performance. As a result, this work may be of significant relevance to academics and designers,
given the varying orientation of internal component of SLM structures.