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Title
Multipass Friction Stir Processing of Laser-Powder Bed Fusion AlSi10Mg: Microstructure and Mechanical Properties
Type of Research Article
Keywords
AlSi10Mg alloy; laser-powder bed fusion; friction stir processing; microstructure; mechanical properties
Abstract
: The effect of multipass friction stir processing (FSP) on the microstructure and mechanical properties of an AlSi10Mg alloy produced by laser-powder bed fusion was investigated. FSP was performed at a rotational speed of 950 rpm and traverse speed of 85 mm/min. The results indicated that FSP destroyed the coarse grain structure in the as-built AlSi10Mg by generating fine and equiaxed grain structures with shear texture components of A 1 * ( 111 ) [ 1 ¯ 1 ¯ 2 ] and A 2 * ( 111 ) [ 11 2 ¯ ] , in addition to causing fragmentation and refinement of the Si networks. FSP reduced the tensile strength slightly but significantly improved ductility. One-pass FSP exhibited superior mechanical properties compared with the two- and three-pass scenarios. The higher strength of the one-pass sample was attributed to the strengthening mechanisms induced by the Si particles, which were grown by repeated FSP. The higher ductility of the one-pass sample was explained using the kernel and grain average misorientations. Furthermore, the post-FSP microstructural evolution and fracture behavior of the samples were discussed.
Researchers Akbar Heidarzadeh (First Researcher)، Mahsa Khorshidi (Second Researcher)، Roghayeh Mohammadzadeh (Third Researcher)، Rasoul Khaje (Fourth Researcher)، Mohammadreza Mofarrehi (Fifth Researcher)، Mousa Javidani (Not In First Six Researchers)، X.-Grant Chen (Not In First Six Researchers)