Synthesis of Al/SiC nanocomposite and evaluation of its mechanical properties using pulse echo overlap method

► Nano-SiC are mixed with Al powder by ball milling to produce Al/SiC powders. ► The mechanical properties of bulk Al/SiC composite are characterized using PEO method. ► Elastic moduli of the composites are improved significantly. ► The bulk Al/SiC composites show higher hardness and lower Poisson’s...

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Published in:Journal of alloys and compounds 2012-11, Vol.542, p.51-58
Main Authors: El-Daly, A.A., Abdelhameed, M., Hashish, M., Eid, A.M.
Format: Article
Language:English
Subjects:
Al/SiC nanocomposite
Aluminum
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science
rheology
Exact sciences and technology
Materials science
Mechanical and acoustical properties of condensed matter
Mechanical properties
Mechanical properties of nanoscale materials
Methods of nanofabrication
Microstructure
Modulus of elasticity
Nanocomposites
Nanocrystalline materials
Nanomaterials
Nanoscale materials and structures: fabrication and characterization
Nanostructure
Non-destructive technique
Physics
Poissons ratio
Scanning electron microscopy
Silicon carbide
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description ► Nano-SiC are mixed with Al powder by ball milling to produce Al/SiC powders. ► The mechanical properties of bulk Al/SiC composite are characterized using PEO method. ► Elastic moduli of the composites are improved significantly. ► The bulk Al/SiC composites show higher hardness and lower Poisson’s ratio values. ► The Al crystal size is decreased with increasing SiC nanoparticles. In the present study, pulse echo overlap method (PEO) has been used as a non-destructive technique for evaluating the mechanical properties of Al/SiC nanocomposites. The nano-sized AI/SiC powders were prepared by mechanical alloying method. The particle size and microstructures of the milled powders were characterized by scanning electron microscope (SEM), transmission electron microscope (TEM), X-ray diffraction (XRD) techniques. Al/SiC powders containing different amounts of nano-size SiC particles (0, 5 and 10vol.%) were subsequently cold-pressed and sintered to produce bulk composite samples. The polycrystalline bulk modulus K, Young’s modulus E, shear modulus G, Poisson ratio υ and hardness H of Al/SiC composites are gained by PEO method. The results showed an increase in the hardness value from 3.8 to 6.6GPa and a decrease in Al crystallite size from 175.6 to 90.8nm with increasing SiC content. Besides, Young’s modulus of Al/10SiC sample was measured to be 97.1GPa, which is much higher than that for pure Al (72.6GPa). Poisson’s ratio results indicate that its value decreases with increasing the elastic moduli and ultrasonic wave velocities of Al/SiC composites. The Pugh ratio showed the ductility behavior of all Al/SiC samples, while Poisson’s ratio showed slightly decrease in the ionic contribution with increasing the volume fraction of SiC nanoparticles in metal matrix composites MMCs. Microstructural analysis revealed that the origin of change in mechanical properties is attributed to the decrease in interparticle spacing and increase in the grain boundary area, which provides more obstacles for dislocation pile up in the adjacent grains.
doi_str_mv 10.1016/j.jallcom.2012.07.102
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In the present study, pulse echo overlap method (PEO) has been used as a non-destructive technique for evaluating the mechanical properties of Al/SiC nanocomposites. The nano-sized AI/SiC powders were prepared by mechanical alloying method. The particle size and microstructures of the milled powders were characterized by scanning electron microscope (SEM), transmission electron microscope (TEM), X-ray diffraction (XRD) techniques. Al/SiC powders containing different amounts of nano-size SiC particles (0, 5 and 10vol.%) were subsequently cold-pressed and sintered to produce bulk composite samples. The polycrystalline bulk modulus K, Young’s modulus E, shear modulus G, Poisson ratio υ and hardness H of Al/SiC composites are gained by PEO method. The results showed an increase in the hardness value from 3.8 to 6.6GPa and a decrease in Al crystallite size from 175.6 to 90.8nm with increasing SiC content. Besides, Young’s modulus of Al/10SiC sample was measured to be 97.1GPa, which is much higher than that for pure Al (72.6GPa). Poisson’s ratio results indicate that its value decreases with increasing the elastic moduli and ultrasonic wave velocities of Al/SiC composites. The Pugh ratio showed the ductility behavior of all Al/SiC samples, while Poisson’s ratio showed slightly decrease in the ionic contribution with increasing the volume fraction of SiC nanoparticles in metal matrix composites MMCs. 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In the present study, pulse echo overlap method (PEO) has been used as a non-destructive technique for evaluating the mechanical properties of Al/SiC nanocomposites. The nano-sized AI/SiC powders were prepared by mechanical alloying method. The particle size and microstructures of the milled powders were characterized by scanning electron microscope (SEM), transmission electron microscope (TEM), X-ray diffraction (XRD) techniques. Al/SiC powders containing different amounts of nano-size SiC particles (0, 5 and 10vol.%) were subsequently cold-pressed and sintered to produce bulk composite samples. The polycrystalline bulk modulus K, Young’s modulus E, shear modulus G, Poisson ratio υ and hardness H of Al/SiC composites are gained by PEO method. The results showed an increase in the hardness value from 3.8 to 6.6GPa and a decrease in Al crystallite size from 175.6 to 90.8nm with increasing SiC content. Besides, Young’s modulus of Al/10SiC sample was measured to be 97.1GPa, which is much higher than that for pure Al (72.6GPa). Poisson’s ratio results indicate that its value decreases with increasing the elastic moduli and ultrasonic wave velocities of Al/SiC composites. The Pugh ratio showed the ductility behavior of all Al/SiC samples, while Poisson’s ratio showed slightly decrease in the ionic contribution with increasing the volume fraction of SiC nanoparticles in metal matrix composites MMCs. 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In the present study, pulse echo overlap method (PEO) has been used as a non-destructive technique for evaluating the mechanical properties of Al/SiC nanocomposites. The nano-sized AI/SiC powders were prepared by mechanical alloying method. The particle size and microstructures of the milled powders were characterized by scanning electron microscope (SEM), transmission electron microscope (TEM), X-ray diffraction (XRD) techniques. Al/SiC powders containing different amounts of nano-size SiC particles (0, 5 and 10vol.%) were subsequently cold-pressed and sintered to produce bulk composite samples. The polycrystalline bulk modulus K, Young’s modulus E, shear modulus G, Poisson ratio υ and hardness H of Al/SiC composites are gained by PEO method. The results showed an increase in the hardness value from 3.8 to 6.6GPa and a decrease in Al crystallite size from 175.6 to 90.8nm with increasing SiC content. Besides, Young’s modulus of Al/10SiC sample was measured to be 97.1GPa, which is much higher than that for pure Al (72.6GPa). Poisson’s ratio results indicate that its value decreases with increasing the elastic moduli and ultrasonic wave velocities of Al/SiC composites. The Pugh ratio showed the ductility behavior of all Al/SiC samples, while Poisson’s ratio showed slightly decrease in the ionic contribution with increasing the volume fraction of SiC nanoparticles in metal matrix composites MMCs. Microstructural analysis revealed that the origin of change in mechanical properties is attributed to the decrease in interparticle spacing and increase in the grain boundary area, which provides more obstacles for dislocation pile up in the adjacent grains.</abstract><cop>Kidlington</cop><pub>Elsevier B.V</pub><doi>10.1016/j.jallcom.2012.07.102</doi><tpages>8</tpages></addata></record>
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subjects Al/SiC nanocomposite
Aluminum
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science
rheology
Exact sciences and technology
Materials science
Mechanical and acoustical properties of condensed matter
Mechanical properties
Mechanical properties of nanoscale materials
Methods of nanofabrication
Microstructure
Modulus of elasticity
Nanocomposites
Nanocrystalline materials
Nanomaterials
Nanoscale materials and structures: fabrication and characterization
Nanostructure
Non-destructive technique
Physics
Poissons ratio
Scanning electron microscopy
Silicon carbide
title Synthesis of Al/SiC nanocomposite and evaluation of its mechanical properties using pulse echo overlap method
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