Surface Morphology Characterization of a Dendrite in Al-Ge Observed by Synchrotron Tomoscopy

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Surface Morphology Characterization of a Dendrite in Al-Ge Observed by Synchrotron Tomoscopy

Layman’s Abstract: In this study, we look at how tree-like structures called dendrites form in a metal alloy (aluminum-germanium) as it cools and solidifies. Using a cutting-edge imaging technique called synchrotron tomoscopy, we capture the process in 3D, which allows us to see these structures in detail. We focus on how different shapes form depending on the local surface and what factors influence these shapes. By examining how the dendrites grow, we can better understand material properties, like how solid and liquid phases interact, which could help improve the design of stronger and more efficient materials.

View Book:- https://doi.org/10.9734/bpi/mono/978-93-49473-95-9/CH3

#DendriteMorphology, #SynchrotronTomoscopy, #MaterialsScience, #3DImaging, #AluminumGermaniumAlloy, #DendriteGrowth, #SolidificationProcess, #MetalAlloys, #AdvancedImaging, #AlloyAnalysis

Related queries -
Synchrotron Imaging Al-Ge Dendrites
Dendrite surface morphology in Al-Ge alloy
Synchrotron tomography in material science
Al-Ge dendrite characterization using synchrotron
High-resolution imaging of dendrites in Al-Ge
Morphological characteristics of dendrites
Synchrotron Radiation
Dendritic Solidification
Al-Ge Alloy
High-Resolution Imaging
Tomography
3D Imaging of Dendrites
Phase Morphology
Crystal Growth in Alloys
Microstructure Analysis
X-ray Tomography
Electron Density Mapping
Surface Topography
Material Characterization
Solidification Structure
Microstructural Evolution
X-ray Diffraction (XRD)
Synchrotron-Based Imaging Techniques
Dendrite Arm Spacing
In-situ Imaging of Solidification
Grain Boundary Characterization
Phase Separation in Alloys



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