Anisotropy models in precise crystallite size determination of mechanically alloyed powders |
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| Authors: | M.S. Senthil SaravananK. Sivaprasad P. SusilaS.P. Kumaresh Babu |
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| Affiliation: | a Advanced Materials Processing Laboratory, Department of Metallurgical and Materials Engineering, National Institute of Technology, Tiruchirappalli 620015, India
b Department of Metallurgical and Materials Engineering, Indian Institute of Technology, Madras, Chennai 600036, India |
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| Abstract: | Nanocrystalline AA 4032 alloy powder was synthesized by high-energy ball milling from elemental powders for 30 h duration. XRD and TEM results reveal that the powder is cubic and nanocrystalline in nature. X-ray peak broadening analysis was used to evaluate the lattice strain and the crystallite size using the Williamson-Hall analysis with three different models viz., uniform deformation, uniform deformation stress and uniform deformation energy density. The root mean square (RMS) strain was calculated from the interplanar spacing and the strain estimated from the three models. The three models yield different strain values due to the anisotropic nature of the material. The energy density model is proposed to be the best fit model among the three as severe lattice strain is associated with ball milled powders. |
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| Keywords: | Nanocomposites X-ray techniques Ball milling AA 4032 alloy RMS strain |
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