AI Article Synopsis
- The study focuses on optimizing process parameters and powder spreading quality for aluminum matrix composites (AMCs) using laser powder bed fusion (LPBF).
- A Box-Behnken Design (BBD) helped enhance the quality of powder spreading with near-spherical β-SiC, resulting in improved interface bonding between the Al matrix and SiC particles.
- The use of a chessboard scanning strategy improved the material's plasticity, affirming that careful selection of scanning techniques can balance strength and flexibility in LPBF-produced parts.
Article Abstract
Process parameters and powder spreading quality are important factors for aluminum matrix composites (AMCs) prepared using laser powder bed fusion (LPBF). In this study, a Box-Behnken Design (BBD) was used to optimize the process parameters, and near-spherical β-SiC was selected to improve the quality of powder spreading. The rationality of parameter optimization was verified by testing the density of samples prepared using different laser power levels. AlC diffraction peaks were found in XRD patterns, which indicated that interface reactions occurred to form good interface bonding between the Al matrix and the SiC particles. The tensile strength and plasticity of LPBF α-SiC/AlSi10Mg were lower than that of LPBF AlSi10Mg, which was mainly due to the poor fluidity of the powder mixtures and powder spreading quality. For LPBF β-SiC/AlSi10Mg, the tensile strength increased and elongation decreased slightly compared to LPBF α-SiC/AlSi10Mg. The data in this study were compared with the data in other studies. In this study, LPBF AlSi10Mg and LPBF β-SiC/AlSi10Mg not only showed the inherent high strength of their LPBF parts, but also had relatively high plasticity. Matching between strength and plasticity was mainly dependent on the scanning strategy. Most studies use uni-directional or bi-directional scanning strategies with a certain rotation angle between layers. A chessboard scanning strategy was used in this study to form a coarse remelted connected skeleton inside the material and significantly improve plasticity. This study lays a theoretical and experimental foundation for the controllable preparation of SiC-reinforced AMCs using LPBF.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10934349 | PMC |
| http://dx.doi.org/10.3390/ma17051187 | DOI Listing |
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