Quantifying Sand Particle Shape Complexity using a Dynamic, Digital Imaging Technique

Miller, Nathaniel A.; Henderson, Jason J.

doi:10.2134/agronj2010.0097

Cited by 17 publications

(13 citation statements)

References 15 publications

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“…Lo Guo et al, 2011;Jerolmack et al, 2011). The particle shadows are scanned in 64 directions, providing a precise and detailed analysis of a wide range of particle shapes using CAMSIZER analysis software (e.g., Lo Miller and Henderson, 2010;Patchigolla and Wilkinson, 2010;Jerolmack et al, 2011). Particle shape parameters that are collected in this study include size, roundness, and sphericity (http://www.retsch--technology.com).…”

Section: Shape Analysismentioning

confidence: 99%

Physical abrasion of mafic minerals and basalt grains: Application to martian aeolian deposits

Cornwall

Titus

Schreiber

et al. 2015

Icarus

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Section: Shape Analysismentioning

confidence: 99%

Physical abrasion of mafic minerals and basalt grains: Application to martian aeolian deposits

Cornwall

Titus

Schreiber

et al. 2015

Icarus

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“…This is a completely reproducible method that uses clearly defined quantitative measures conforming to international standards of particle shape quantification (International Organization for Standardization, 2006, 2008). The quantitative sphericity and aspect ratio parameters most closely correspond with current qualitative ratings of angularity and sphericity, respectively (Miller and Henderson, 2010). The Camsizer sphericity values and the qualitative angularity ratings are affected by particle surface irregularities, whereas the quantitative aspect ratio values and the qualitative sphericity values describe the overall roundness of the particles.…”

mentioning

confidence: 55%

“…Sand particle shape quantification can also be accomplished using a dynamic, digital imaging method. It has been reported that this technique provides quantitative shape parameters that are not only consistent with those of current shape evaluation methods, but are also more precise and better able to differentiate between varying shape complexities (Miller and Henderson, 2010). The shape parameters provided by this technique include sphericity, symmetry, and aspect ratio.…”

mentioning

confidence: 79%

“…The procedure described by ASTM D5550‐06 (ASTM, 2006a) was used for determining particle density. A summary of the origin and particle densities of all materials used can be found in Table 1 (Miller and Henderson, 2010). Shape quantification was achieved by dynamic digital image analysis using a Camsizer (Horiba Instruments, Inc., Irvine, CA) (Miller and Henderson, 2010).…”

Section: Methodsmentioning

confidence: 99%

See 1 more Smart Citation

Correlating Particle Shape Parameters to Bulk Properties and Load Stress at Two Water Contents

Miller

Henderson

2011

Agronomy Journal

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Particle shape of prospective root-zone sands is evaluated qualitatively, but a quantitative shape determination may be more useful for sand selection. The objectives of this research were to: determine how particle shape complexity relates to bulk density, total porosity, and mechanical behavior (resistance to displacement given a vertical load); correlate quantitative shape parameters to these properties; determine how water content influences these relationships; and establish if quantitative shape parameters can be used to predict mechanical behavior in the absence of turfgrass roots. Seven materials of various shapes were separated into the medium size class (0.25 to 0.50 mm) to limit variability introduced by particle size distribution. A dynamic, digital imaging machine was used to quantify particle sphericity, symmetry, and aspect ratio. Bulk density, total porosity, and stress at multiple displacements were determined for the materials at two water contents, oven-dry and 5% gravimetric water content. As sphericity, symmetry and aspect ratio increased, bulk density increased and total porosity decreased. Sphericity, symmetry, and aspect ratio were negatively correlated with stress under a vertical load. The addition of water at compaction did not affect the correlations of the shape parameters with either bulk density or porosity; correlations of symmetry and sphericity with these were stronger at 5% water content for some displacements. Multiple regression analysis indicated that sphericity can be used to predict stress characteristics of sands compacted at 5% water content for specific testing conditions. These data indicate that particle shape complexity is related to bulk properties and has potential for predicting the stress characteristics of prospective root zone materials prior to construction.

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“…This method was reported to be highly correlated with a well-accepted static/quantitative technique using light microscopy (r > 0.9 for both aspect ratio and sphericity) [24]. Particle size distribution (PSD) was determined according to a standardized method developed by the ISO [25].…”

Section: Particle Size Distributionmentioning

confidence: 99%

Effect of pelleting on the recalcitrance and bioconversion of dilute-acid pretreated corn stover under low- and high-solids conditions

et al. 2013

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Background:Knowledge regarding the performance of densified biomass in biochemical processes is limited. The effects of densification on biochemical conversion are explored here. Results: Pelleted corn stover samples were generated from bales that were milled to 6.35 mm. Low-solids acid pretreatment and simultaneous saccharification and fermentation were performed for pelleted and ground stover (6.35 and 2 mm) formats. Monomeric xylose yields were significantly higher for pellets (~60%) than for ground formats (~38%). Pellets achieved approximately 84% of theoretical ethanol yield; ground stover formats had similar profiles, reaching approximately 68% theoretical ethanol yield. Pelleted and 6.35-mm ground stover were evaluated using a ZipperClave® reactor under high-solids, process-relevant conditions for multiple pretreatment severities (R o ); feedstock reactivity increased slightly following combined pretreatment and enzymatic hydrolysis for three of five severities tested. Conclusion: Pelleting did not render corn stover more recalcitrant to dilute-acid pretreatment under low-or high-solids conditions, and even enhanced ethanol yields.

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Quantifying Sand Particle Shape Complexity using a Dynamic, Digital Imaging Technique

Cited by 17 publications

References 15 publications

Physical abrasion of mafic minerals and basalt grains: Application to martian aeolian deposits

Physical abrasion of mafic minerals and basalt grains: Application to martian aeolian deposits

Correlating Particle Shape Parameters to Bulk Properties and Load Stress at Two Water Contents

Effect of pelleting on the recalcitrance and bioconversion of dilute-acid pretreated corn stover under low- and high-solids conditions

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