Micromechanics of quartz sand breakage in a fractal context

Article


Assadi Langroudi, A., Jefferson, Ian, O'hara-Dhand, Kenneth and Smalley, Ian 2013. Micromechanics of quartz sand breakage in a fractal context. Geomorphology. 211, pp. 1-10.
AuthorsAssadi Langroudi, A., Jefferson, Ian, O'hara-Dhand, Kenneth and Smalley, Ian
Abstract

From a Quaternary science perspective, sand-sized quartz as well as silt-sized quartz is often acknowledged as final products of glacial abrasion through different evolution mechanisms. This view challenges the existence of any universal comminution process, which may relate the formation of detrital quartz sand and silt. The contribution of grain size, energy input, and crystalline integrity in the scale of quartz crushability has long been the matter of much debate. The present empirical work examines the micromechanics of sand-to-silt size reduction in the quartz material. A series of grinding experiments was performed on Leighton Buzzard Lower Greensand using a high-energy agate disc mill. Analogous conditions to glacial abrasion are provided due to the combined abrasion between grains' asperity tips, and also between grains and rotating smooth tungsten carbide pestle. Simulation of discontinuous grain breakage allowed the examination of grains' crystalline defects. To enable an objective assessment of micromechanics of size reduction, measurements of particle and mode size distribution, fractal indexes and micro-morphological signatures were made. The crushing approach was probed through varied grinding times at a constant energy input, as well as varied energy inputs at constant grinding time. Breakage pathway was inspected via laser diffraction spectroscopy and transmission light microscopy. Results suggested that the grain breakdown is not necessarily an energy-dependent process. Non-crystallographically pure (amorphous) quartz sand and silt are inherently breakable materials through a fractal breakdown process. Results also revealed that the internal defects in quartz are independent from size and energy input.

JournalGeomorphology
Journal citation211, pp. 1-10
ISSN0169555X
Year2013
PublisherElsevier
Accepted author manuscript
License
CC BY-NC-ND
Web address (URL)http://dx.doi.org/10.1016/j.geomorph.2013.12.016
Publication dates
Print21 Dec 2013
Publication process dates
Deposited11 Apr 2016
Accepted15 Dec 2013
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