Brittle Behavior in Aspirin Crystals: Evidence of Spalling Fracture

Benjamin P. A. Gabriele; Craig J. Williams; Douglas Stauffer; Brian Derby; Aurora J. Cruz-Cabeza

doi:10.1021/acs.cgd.0c01662

Brittle Behavior in Aspirin Crystals: Evidence of Spalling Fracture

Benjamin P. A. Gabriele, Craig J. Williams, Douglas Stauffer, Brian Derby, Aurora J. Cruz-Cabeza

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Abstract

Single crystals of aspirin form I were cleaved and indented on their dominant face. Upon inspection, it was possible to observe strongly anisotropic shallow lateral cracks due to the extreme low surface roughness after cleavage. Atomic force microscopy (AFM) imaging showed spalling fractures nucleating from the indent corners, forming terraces with a height of one or two interplanar spacings d100. The formation of such spalling fractures in aspirin was rationalized using basic calculations of attachment energies, showing how (100) layers are poorly bonded when compared to their relatively higher intralayer bonding. An attempt at explaining the preferential propagation of these fractures along the [010] direction is discussed.

Original language	English
Journal	Crystal Growth & Design
DOIs	https://doi.org/10.1021/acs.cgd.0c01662
Publication status	Published - 27 Jan 2021

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Gabriele-CruzCabeza_Main_AspirinSpalling_FinalAccepted author manuscript, 5.19 MB

Nanomechanical Characterisation Laboratory
Williams, C. (Technical Specialist), Forrest, A. (Senior Technician) & Derby, B. (Academic lead)
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Spencer, B. (Platform Lead), Nikiel, M. (Technical Specialist), Sheraz, S. (Technical Specialist), Li, K. (Technical Specialist), Dwyer, L. (Technical Specialist), Wall, S. (Technical Specialist), Williams, W. (Technical Specialist), Forrest, A. (Senior Technician), Fong, J. (Senior Technician), Filip, T. (Technician), Kundu, S. (Technical Specialist), Moore, K. (Academic lead), Walton, A. (Academic lead) & Lockyer, N. (Academic lead)
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title = "Brittle Behavior in Aspirin Crystals: Evidence of Spalling Fracture",

abstract = "Single crystals of aspirin form I were cleaved and indented on their dominant face. Upon inspection, it was possible to observe strongly anisotropic shallow lateral cracks due to the extreme low surface roughness after cleavage. Atomic force microscopy (AFM) imaging showed spalling fractures nucleating from the indent corners, forming terraces with a height of one or two interplanar spacings d100. The formation of such spalling fractures in aspirin was rationalized using basic calculations of attachment energies, showing how (100) layers are poorly bonded when compared to their relatively higher intralayer bonding. An attempt at explaining the preferential propagation of these fractures along the [010] direction is discussed.",

author = "Gabriele, {Benjamin P. A.} and Williams, {Craig J.} and Douglas Stauffer and Brian Derby and Cruz-Cabeza, {Aurora J.}",

year = "2021",

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doi = "10.1021/acs.cgd.0c01662",

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AU - Gabriele, Benjamin P. A.

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AU - Stauffer, Douglas

AU - Derby, Brian

AU - Cruz-Cabeza, Aurora J.

PY - 2021/1/27

Y1 - 2021/1/27

N2 - Single crystals of aspirin form I were cleaved and indented on their dominant face. Upon inspection, it was possible to observe strongly anisotropic shallow lateral cracks due to the extreme low surface roughness after cleavage. Atomic force microscopy (AFM) imaging showed spalling fractures nucleating from the indent corners, forming terraces with a height of one or two interplanar spacings d100. The formation of such spalling fractures in aspirin was rationalized using basic calculations of attachment energies, showing how (100) layers are poorly bonded when compared to their relatively higher intralayer bonding. An attempt at explaining the preferential propagation of these fractures along the [010] direction is discussed.

AB - Single crystals of aspirin form I were cleaved and indented on their dominant face. Upon inspection, it was possible to observe strongly anisotropic shallow lateral cracks due to the extreme low surface roughness after cleavage. Atomic force microscopy (AFM) imaging showed spalling fractures nucleating from the indent corners, forming terraces with a height of one or two interplanar spacings d100. The formation of such spalling fractures in aspirin was rationalized using basic calculations of attachment energies, showing how (100) layers are poorly bonded when compared to their relatively higher intralayer bonding. An attempt at explaining the preferential propagation of these fractures along the [010] direction is discussed.

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DO - 10.1021/acs.cgd.0c01662

M3 - Article

SN - 1528-7483

JO - Crystal Growth & Design

JF - Crystal Growth & Design

ER -

Brittle Behavior in Aspirin Crystals: Evidence of Spalling Fracture

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