Effect of Particle Specific Surface Area on the Rheology of Non-Brownian Silica Suspensions
Industrial formulations very often involve particles with a broad range of surface characteristics and size distributions. Particle surface asperities (roughness) and porosity increase particle specific surface area and significantly alter suspension rheology, which can be detrimental to the quality...
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MDPI AG
2020-10-01
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Online Access: | https://www.mdpi.com/1996-1944/13/20/4628 |
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author | Anastasia Papadopoulou Jurriaan J. J. Gillissen Manish K. Tiwari Stavroula Balabani |
author_facet | Anastasia Papadopoulou Jurriaan J. J. Gillissen Manish K. Tiwari Stavroula Balabani |
author_sort | Anastasia Papadopoulou |
collection | DOAJ |
description | Industrial formulations very often involve particles with a broad range of surface characteristics and size distributions. Particle surface asperities (roughness) and porosity increase particle specific surface area and significantly alter suspension rheology, which can be detrimental to the quality of the end product. We examine the rheological properties of two types of non-Brownian, commercial precipitated silicas, with varying specific surface area, namely PS52 and PS226, suspended in a non-aqueous solvent, glycerol, and compare them against those of glass sphere suspensions (GS2) with a similar size distribution. A non-monotonic effect of the specific surface area (<inline-formula><math display="inline"><semantics><mi>S</mi></semantics></math></inline-formula>) on suspension rheology is observed, whereby PS52 particles in glycerol are found to exhibit strong shear thinning response, whereas such response is suppressed for glass sphere and PS226 particle suspensions. This behaviour is attributed to the competing mechanisms of particle–particle and particle–solvent interactions. In particular, increasing the specific surface area beyond a certain value results in the repulsive interparticle hydration forces (solvation forces) induced by glycerol overcoming particle frictional contacts and suppressing shear thinning; this is evidenced by the response of the highest specific surface area particles PS226. The study demonstrates the potential of using particle specific surface area as a means to tune the rheology of non-Brownian silica particle suspensions. |
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format | Article |
id | doaj.art-980c8418850e46b9b738ff21049034e7 |
institution | Directory Open Access Journal |
issn | 1996-1944 |
language | English |
last_indexed | 2024-03-10T15:33:39Z |
publishDate | 2020-10-01 |
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series | Materials |
spelling | doaj.art-980c8418850e46b9b738ff21049034e72023-11-20T17:26:34ZengMDPI AGMaterials1996-19442020-10-011320462810.3390/ma13204628Effect of Particle Specific Surface Area on the Rheology of Non-Brownian Silica SuspensionsAnastasia Papadopoulou0Jurriaan J. J. Gillissen1Manish K. Tiwari2Stavroula Balabani3FluME, Department of Mechanical Engineering, University College London, Torrington Place, London WC1E 7JE, UKDepartment of Mathematics, University College London, Gower Street, London WC1E 6BT, UKNanoengineered Systems Laboratory, Department of Mechanical Engineering, University College London, Torrington Place, London WC1E 7JE, UKFluME, Department of Mechanical Engineering, University College London, Torrington Place, London WC1E 7JE, UKIndustrial formulations very often involve particles with a broad range of surface characteristics and size distributions. Particle surface asperities (roughness) and porosity increase particle specific surface area and significantly alter suspension rheology, which can be detrimental to the quality of the end product. We examine the rheological properties of two types of non-Brownian, commercial precipitated silicas, with varying specific surface area, namely PS52 and PS226, suspended in a non-aqueous solvent, glycerol, and compare them against those of glass sphere suspensions (GS2) with a similar size distribution. A non-monotonic effect of the specific surface area (<inline-formula><math display="inline"><semantics><mi>S</mi></semantics></math></inline-formula>) on suspension rheology is observed, whereby PS52 particles in glycerol are found to exhibit strong shear thinning response, whereas such response is suppressed for glass sphere and PS226 particle suspensions. This behaviour is attributed to the competing mechanisms of particle–particle and particle–solvent interactions. In particular, increasing the specific surface area beyond a certain value results in the repulsive interparticle hydration forces (solvation forces) induced by glycerol overcoming particle frictional contacts and suppressing shear thinning; this is evidenced by the response of the highest specific surface area particles PS226. The study demonstrates the potential of using particle specific surface area as a means to tune the rheology of non-Brownian silica particle suspensions.https://www.mdpi.com/1996-1944/13/20/4628commercial silicassurface roughnessparticle porosityglycerolshear rheologyspecific surface area |
spellingShingle | Anastasia Papadopoulou Jurriaan J. J. Gillissen Manish K. Tiwari Stavroula Balabani Effect of Particle Specific Surface Area on the Rheology of Non-Brownian Silica Suspensions Materials commercial silicas surface roughness particle porosity glycerol shear rheology specific surface area |
title | Effect of Particle Specific Surface Area on the Rheology of Non-Brownian Silica Suspensions |
title_full | Effect of Particle Specific Surface Area on the Rheology of Non-Brownian Silica Suspensions |
title_fullStr | Effect of Particle Specific Surface Area on the Rheology of Non-Brownian Silica Suspensions |
title_full_unstemmed | Effect of Particle Specific Surface Area on the Rheology of Non-Brownian Silica Suspensions |
title_short | Effect of Particle Specific Surface Area on the Rheology of Non-Brownian Silica Suspensions |
title_sort | effect of particle specific surface area on the rheology of non brownian silica suspensions |
topic | commercial silicas surface roughness particle porosity glycerol shear rheology specific surface area |
url | https://www.mdpi.com/1996-1944/13/20/4628 |
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