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A dimensionally consistent size–strain plot method for crystallite size and microstrain estimation

Anand Pal

2025Journal of Alloys and Compounds9 citationsDOIOpen Access PDF

Abstract

X-ray diffraction (XRD) peak broadening analysis remains a cornerstone for quantifying crystallite size and lattice microstrain in materials. Among various approaches, the Size–Strain Plot (SSP) method is widely employed for its conceptual simplicity and ease of use. However, this study reveals that the equation most commonly applied in SSP analysis is dimensionally inconsistent—a critical flaw that has gone largely unnoticed and replicated across decades of materials research. This pervasive error raises concerns about the validity of a significant body of published microstructural data. By tracing the historical origin of the misformulated equation, we demonstrate how a seemingly minor oversight evolved into a widely accepted standard practice within the field. We then present a dimensionally consistent formulation that restores physical meaning and analytical reliability to the SSP method. The corrected framework re-establishes the SSP approach as a robust and physically valid tool for XRD-based microstructural characterization.

Topics & Concepts

CrystalliteMaterials scienceDiffractionPlot (graphics)Reliability (semiconductor)MicrostructureCharacterization (materials science)Statistical physicsLattice (music)TracingRelation (database)A priori and a posterioriCornerstoneX-ray crystallographyComputer scienceMineralogyMathematicsSimplicitySimple (philosophy)Structural equation modelingMicrostructure and mechanical propertiesHigh-pressure geophysics and materialsX-ray Diffraction in Crystallography
A dimensionally consistent size–strain plot method for crystallite size and microstrain estimation | Litcius