Effect of sintering atmosphere and temperature on mechanical properties of Ni-Cu-Zn ferrite nanoparticles
Ferrites exhibits unique structural, electrical, magnetic and mechanical properties in extreme conditions that are of great research interest. In this work, the effects of sintering atmosphere and temperature on elastic moduli properties of Ni0.3Cu0.2Zn0.5Fe2O4 nanoparticles have been investigated. The elastic constants of the samples have been calculated by using the values of the structural parameters and also the vibration frequencies obtained from infrared spectra. The values of shear (VS) and longitudinal (Vl) wave velocities obtained from force constants have been used to determine the values of Young’s modulus (E), rigidity modulus (G), bulk modulus (B), Debye temperature (θD). By comparison of the elastic results of the studied samples, we can observe that the elastic moduli of the samples sintered under reducing atmosphere are higher than the other samples, whereas they have been improved with increase of sintering temperature under reducing atmosphere. In addition, using the values of the compliance sij obtained from elastic stiffness constants, the values of Young’s modulus E(hkl) and Poisson’s ratio σ(hkl,θ) along the oriented direction [hkl] have been calculated for the samples.
Article Type:
Research/Original Article
Journal of Iranian Metallurgical and Materials Engineering Society, Volume:20 Issue:68, 2018
304 - 310
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