Estimation of lattice strain in aluminaâzirconia nanocomposites by X-ray diffraction peak profile analysis
- Department of Physics, Raiganj University, Raiganj, Uttar Dinajpur 733134, India
- Department of Physics, Vivekananda Mahavidyalaya, Haripal, Hooghly 712405, India
Abstract
AbstractZirconia nanoparticles were synthesized by a solution combustion technique. Zirconia nanoparticles were grown inside alumina templates to control the crystal size. The alumina templates were characterized by pores of sizes of approximately 6â8Â nm. X-ray diffraction line profile analysis using WilliamsonâHall method and Warren and Averbach revealed that the alumina templates were characterized by negligible defect-related effect of lattice distortion. Rietveld structure refinement did not reveal any gross difference with the literature reported values for cell parameters âaâ and âcâ and fractional atomic coordinates x and z for Al and O atoms indicating no large-scale bond deformation. The template X-ray reflections in the nanocomposites are skewed in nature which indicates some distortion of the templates might have taken place. The distortion is, however, plastic in nature which is evident from the higher level of lattice distortion viz. 0.2% of lattice microstrain.