Pairwise frictional profile between particles determines discontinuous shear thickening transition in non-colloidal suspensions

The process by which sheared suspensions go through a dramatic change in viscosity is known as discontinuous shear thickening. Although well-characterized on the macroscale, the microscopic mechanisms at play in this transition are still poorly understood. Here, by developing new experimental proced...

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Published inNature communications Vol. 8; no. 1; pp. 15633 - 7
Main Authors Comtet, Jean, Chatté, Guillaume, Niguès, Antoine, Bocquet, Lydéric, Siria, Alessandro, Colin, Annie
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 31.05.2017
Nature Publishing Group
Nature Portfolio
Subjects
639/301
639/766/189
639/766/930
Composite materials
Condensed Matter
Electron microscopes
Fluid mechanics
Friction
Humanities and Social Sciences
Mechanics
multidisciplinary
Physics
Polyvinyl chloride
Rheology
Science
Science (multidisciplinary)
Sliding friction
Soft Condensed Matter
Solvents
Viscosity
France
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Abstract The process by which sheared suspensions go through a dramatic change in viscosity is known as discontinuous shear thickening. Although well-characterized on the macroscale, the microscopic mechanisms at play in this transition are still poorly understood. Here, by developing new experimental procedures based on quartz-tuning fork atomic force microscopy, we measure the pairwise frictional profile between approaching pairs of polyvinyl chloride and cornstarch particles in solvent. We report a clear transition from a low-friction regime, where pairs of particles support a finite normal load, while interacting purely hydrodynamically, to a high-friction regime characterized by hard repulsive contact between the particles and sliding friction. Critically, we show that the normal stress needed to enter the frictional regime at nanoscale matches the critical stress at which shear thickening occurs for macroscopic suspensions. Our experiments bridge nano and macroscales and provide long needed demonstration of the role of frictional forces in discontinuous shear thickening. Shear thickening characterizes liquid suspensions of particles that reversibly solidify subject to stress. Here, Comtet et al . show that shear thickening occurs at the transition from lubricated contacts to frictional contacts at a single-particle level, which can be linked to the change in macroscopic rheology.
AbstractList Shear thickening characterizes liquid suspensions of particles that reversibly solidify subject to stress. Here, Comtetet al. show that shear thickening occurs at the transition from lubricated contacts to frictional contacts at a single-particle level, which can be linked to the change in macroscopic rheology.
The process by which sheared suspensions go through a dramatic change in viscosity is known as discontinuous shear thickening. Although well-characterized on the macroscale, the microscopic mechanisms at play in this transition are still poorly understood. Here, by developing new experimental procedures based on quartz-tuning fork atomic force microscopy, we measure the pairwise frictional profile between approaching pairs of polyvinyl chloride and cornstarch particles in solvent. We report a clear transition from a low-friction regime, where pairs of particles support a finite normal load, while interacting purely hydrodynamically, to a high-friction regime characterized by hard repulsive contact between the particles and sliding friction. Critically, we show that the normal stress needed to enter the frictional regime at nanoscale matches the critical stress at which shear thickening occurs for macroscopic suspensions. Our experiments bridge nano and macroscales and provide long needed demonstration of the role of frictional forces in discontinuous shear thickening.The process by which sheared suspensions go through a dramatic change in viscosity is known as discontinuous shear thickening. Although well-characterized on the macroscale, the microscopic mechanisms at play in this transition are still poorly understood. Here, by developing new experimental procedures based on quartz-tuning fork atomic force microscopy, we measure the pairwise frictional profile between approaching pairs of polyvinyl chloride and cornstarch particles in solvent. We report a clear transition from a low-friction regime, where pairs of particles support a finite normal load, while interacting purely hydrodynamically, to a high-friction regime characterized by hard repulsive contact between the particles and sliding friction. Critically, we show that the normal stress needed to enter the frictional regime at nanoscale matches the critical stress at which shear thickening occurs for macroscopic suspensions. Our experiments bridge nano and macroscales and provide long needed demonstration of the role of frictional forces in discontinuous shear thickening.
The process by which sheared suspensions go through a dramatic change in viscosity is known as discontinuous shear thickening. Although well-characterized on the macroscale, the microscopic mechanisms at play in this transition are still poorly understood. Here, by developing new experimental procedures based on quartz-tuning fork atomic force microscopy, we measure the pairwise frictional profile between approaching pairs of polyvinyl chloride and cornstarch particles in solvent. We report a clear transition from a low-friction regime, where pairs of particles support a finite normal load, while interacting purely hydrodynamically, to a high-friction regime characterized by hard repulsive contact between the particles and sliding friction. Critically, we show that the normal stress needed to enter the frictional regime at nanoscale matches the critical stress at which shear thickening occurs for macroscopic suspensions. Our experiments bridge nano and macroscales and provide long needed demonstration of the role of frictional forces in discontinuous shear thickening
The process by which sheared suspensions go through a dramatic change in viscosity is known as discontinuous shear thickening. Although well-characterized on the macroscale, the microscopic mechanisms at play in this transition are still poorly understood. Here, by developing new experimental procedures based on quartz-tuning fork atomic force microscopy, we measure the pairwise frictional profile between approaching pairs of polyvinyl chloride and cornstarch particles in solvent. We report a clear transition from a low-friction regime, where pairs of particles support a finite normal load, while interacting purely hydrodynamically, to a high-friction regime characterized by hard repulsive contact between the particles and sliding friction. Critically, we show that the normal stress needed to enter the frictional regime at nanoscale matches the critical stress at which shear thickening occurs for macroscopic suspensions. Our experiments bridge nano and macroscales and provide long needed demonstration of the role of frictional forces in discontinuous shear thickening.
The process by which sheared suspensions go through a dramatic change in viscosity is known as discontinuous shear thickening. Although well-characterized on the macroscale, the microscopic mechanisms at play in this transition are still poorly understood. Here, by developing new experimental procedures based on quartz-tuning fork atomic force microscopy, we measure the pairwise frictional profile between approaching pairs of polyvinyl chloride and cornstarch particles in solvent. We report a clear transition from a low-friction regime, where pairs of particles support a finite normal load, while interacting purely hydrodynamically, to a high-friction regime characterized by hard repulsive contact between the particles and sliding friction. Critically, we show that the normal stress needed to enter the frictional regime at nanoscale matches the critical stress at which shear thickening occurs for macroscopic suspensions. Our experiments bridge nano and macroscales and provide long needed demonstration of the role of frictional forces in discontinuous shear thickening. Shear thickening characterizes liquid suspensions of particles that reversibly solidify subject to stress. Here, Comtet et al . show that shear thickening occurs at the transition from lubricated contacts to frictional contacts at a single-particle level, which can be linked to the change in macroscopic rheology.
ArticleNumber 15633
Author Bocquet, Lydéric
Comtet, Jean
Niguès, Antoine
Chatté, Guillaume
Siria, Alessandro
Colin, Annie
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  surname: Colin
  fullname: Colin, Annie
  email: annie.colin@espci.fr
  organization: ESPCI Paris, Sciences et Ingénierie de la Matière Molle, CNRS UMR 7615 10, PSL Research University, Université de Bordeaux
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Snippet The process by which sheared suspensions go through a dramatic change in viscosity is known as discontinuous shear thickening. Although well-characterized on...
Shear thickening characterizes liquid suspensions of particles that reversibly solidify subject to stress. Here, Comtetet al. show that shear thickening occurs...
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StartPage 15633
SubjectTerms 639/301
639/766/189
639/766/930
Composite materials
Condensed Matter
Electron microscopes
Fluid mechanics
Friction
Humanities and Social Sciences
Mechanics
multidisciplinary
Physics
Polyvinyl chloride
Rheology
Science
Science (multidisciplinary)
Sliding friction
Soft Condensed Matter
Solvents
Viscosity
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Title Pairwise frictional profile between particles determines discontinuous shear thickening transition in non-colloidal suspensions
URI https://link.springer.com/article/10.1038/ncomms15633
https://www.ncbi.nlm.nih.gov/pubmed/28561032
https://www.proquest.com/docview/1903932311
https://www.proquest.com/docview/1904228885
https://hal.science/hal-01544102
https://pubmed.ncbi.nlm.nih.gov/PMC5499204
https://doaj.org/article/791dddba024946598157f5b80dc5c305
Volume 8
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