Using the Size Strain Plot Method to Specity Lattice Parameters

X-ray diffractometers deliver the best quality diffraction data while being easy to use and adaptable to various applications. When X-ray photons strike electrons in materials, the incident photons scatter in a direction different from the incident beam; if the scattered beams do not change in wavel...

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Main Authors: Marwah T. Jalil, Khalid H. Harbbi
Format: Article
Language:English
Published: University of Baghdad 2023-01-01
Series:Ibn Al-Haitham Journal for Pure and Applied Sciences
Subjects:
Online Access:https://jih.uobaghdad.edu.iq/index.php/j/article/view/2891
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author Marwah T. Jalil
Khalid H. Harbbi
author_facet Marwah T. Jalil
Khalid H. Harbbi
author_sort Marwah T. Jalil
collection DOAJ
description X-ray diffractometers deliver the best quality diffraction data while being easy to use and adaptable to various applications. When X-ray photons strike electrons in materials, the incident photons scatter in a direction different from the incident beam; if the scattered beams do not change in wavelength, this is known as elastic scattering, which causes amplitude and intensity diffraction, leading to constructive interference. When the incident beam gives some of its energy to the electrons, the scattered beam's wavelength differs from the incident beam's wavelength, causing inelastic scattering, which leads to destructive interference and zero-intensity diffraction. In this study, The modified size-strain plot method was used to examine the pattern of x-ray diffraction lines (101),(121),(202),(042), and (242) for calcium titanate(CaTiO3) nanoparticles in this study. To calculate the new variables, the size strain plot method was created., X-ray line analysis and calculation of crystal size and lattice tension of calcium titanate oxide nanoparticles. It is used to calculate the crystal volume (44.7 nm) and to calculate the determination of network parameters such as the texture modulus (Tc), macro stress (MS), specific surface area (SSA), and dislocation density(η), respectively.
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spelling doaj.art-bcf82a08133849aaa371e740e12282ad2023-02-01T08:52:15ZengUniversity of BaghdadIbn Al-Haitham Journal for Pure and Applied Sciences1609-40422521-34072023-01-0136112312910.30526/36.1.28914262Using the Size Strain Plot Method to Specity Lattice ParametersMarwah T. Jalil0Khalid H. Harbbi1Department of Phesics,College of Education for Pure Sciences, Ibn Al - Haitham, University of Baghdad, Baghdad, IraqDepartment of Phesics,College of Education for Pure Sciences, Ibn Al - Haitham, University of Baghdad, Baghdad, Iraq.X-ray diffractometers deliver the best quality diffraction data while being easy to use and adaptable to various applications. When X-ray photons strike electrons in materials, the incident photons scatter in a direction different from the incident beam; if the scattered beams do not change in wavelength, this is known as elastic scattering, which causes amplitude and intensity diffraction, leading to constructive interference. When the incident beam gives some of its energy to the electrons, the scattered beam's wavelength differs from the incident beam's wavelength, causing inelastic scattering, which leads to destructive interference and zero-intensity diffraction. In this study, The modified size-strain plot method was used to examine the pattern of x-ray diffraction lines (101),(121),(202),(042), and (242) for calcium titanate(CaTiO3) nanoparticles in this study. To calculate the new variables, the size strain plot method was created., X-ray line analysis and calculation of crystal size and lattice tension of calcium titanate oxide nanoparticles. It is used to calculate the crystal volume (44.7 nm) and to calculate the determination of network parameters such as the texture modulus (Tc), macro stress (MS), specific surface area (SSA), and dislocation density(η), respectively.https://jih.uobaghdad.edu.iq/index.php/j/article/view/2891department of phesics,college of education for pure sciences, ibn al - haitham, university of baghdad, baghdad, iraq
spellingShingle Marwah T. Jalil
Khalid H. Harbbi
Using the Size Strain Plot Method to Specity Lattice Parameters
Ibn Al-Haitham Journal for Pure and Applied Sciences
department of phesics,college of education for pure sciences, ibn al - haitham, university of baghdad, baghdad, iraq
title Using the Size Strain Plot Method to Specity Lattice Parameters
title_full Using the Size Strain Plot Method to Specity Lattice Parameters
title_fullStr Using the Size Strain Plot Method to Specity Lattice Parameters
title_full_unstemmed Using the Size Strain Plot Method to Specity Lattice Parameters
title_short Using the Size Strain Plot Method to Specity Lattice Parameters
title_sort using the size strain plot method to specity lattice parameters
topic department of phesics,college of education for pure sciences, ibn al - haitham, university of baghdad, baghdad, iraq
url https://jih.uobaghdad.edu.iq/index.php/j/article/view/2891
work_keys_str_mv AT marwahtjalil usingthesizestrainplotmethodtospecitylatticeparameters
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