Sintering Behavior of Nanocrystalline Al6063 Powders Prepared by High-Energy Mechanical Milling

Abstract: Nanocrystalline Al6063 powders were synthesized by high-energy mechanical milling of gas-atomized powders for 22.5 h. The powders were uniaxially compacted at various compaction pressures ranging 200-1325 MPa and then were sintered at temperatures between 550 and 650°C for 1 h. The densification and microstructural evolutions during both solid phase sintering and supersolidus liquid phase sintering are studied. Ultrafine-grained (UFG) Al alloy compacts show superior sinterability compared with coarsegrained (C… Show more

“…Figure 2c shows HR-TEM image with an interplanar distance of 2.33 A , corresponding to the plane (111) of a crystallographic structure FCC of Al. Figure 2d illustrates the tablet after the sintering process, consolidated regions are appreciated, due to diffusion between particles which reduces porosity [8]. Figure 2e shows lengths of 152.9 µm for indentation marks, resulting in a microhardness value of 62 ± 2 HV, due to the good consolidation of the material in the sintering process.…”

Effect of 4 Wt% Magnesium on The Micro-hardness Of Aluminum Alloy Synthesized by Mechanical Milling

“…Figure 2c shows HR-TEM image with an interplanar distance of 2.33 A , corresponding to the plane (111) of a crystallographic structure FCC of Al. Figure 2d illustrates the tablet after the sintering process, consolidated regions are appreciated, due to diffusion between particles which reduces porosity [8]. Figure 2e shows lengths of 152.9 µm for indentation marks, resulting in a microhardness value of 62 ± 2 HV, due to the good consolidation of the material in the sintering process.…”

Effect of 4 Wt% Magnesium on The Micro-hardness Of Aluminum Alloy Synthesized by Mechanical Milling

Effect of Volume Fraction of Reinforcement and Milling Time on Physical and Mechanical Properties of Al7075–SiC Composites Fabricated by Powder Metallurgy Method

An Investigation of Parameters Involved and Defects in the Fabrication of Al–SiC Nanocomposite Using Hot Extrusion Technique