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Surface Tension, Capillary Action, and Viscosity02:57

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The various IMFs between identical molecules of a substance are examples of cohesive forces. The molecules within a liquid are surrounded by other molecules and are attracted equally in all directions by the cohesive forces within the liquid. However, the molecules on the surface of a liquid are attracted only by about one-half as many molecules. Because of the unbalanced molecular attractions on the surface molecules, liquids contract to form a shape that minimizes the number...
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When water is poured into a glass, it falls freely and quickly, whereas if honey or maple syrup is poured over a pancake, it flows slowly and sticks to the surface of the container. This difference in the flow of different kinds of liquids arises due to the fluid friction between the liquid layers and the liquid and the surrounding material. This property of fluids is called fluid viscosity. In this example, water has a lower viscosity than honey and maple syrup.
The SI unit of viscosity is...
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Deformation occurs in axial and transverse directions when an axial load is applied to a slender bar. This deformation impacts the cubic element within the bar, transforming it into either a rectangular parallelepiped or a rhombus, contingent on its orientation. This transformation process induces shearing strain. Axial loading elicits both shearing and normal strains. Applying an axial load instigates equal normal and shearing stresses on elements oriented at a 45° angle to the load axis.
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Viscosity of Fluid01:19

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Viscosity measures the resistance a fluid offers to flow and deformation. It results from internal friction between layers of fluid moving relative to one another. Dynamic viscosity, denoted by the Greek letter mu (μ), quantifies the force needed to move one fluid layer over another. For Newtonian fluids like water and air, the relationship between the shearing stress and the rate of shearing strain is linear, meaning their viscosity remains constant regardless of the applied stress.
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Speed of Sound in Solids and Liquids00:51

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Most solids and liquids are incompressible—their densities remain constant throughout. In the presence of an external force, the molecules tend to restore to their original positions, which is only possible because the constituents interact. The interactions help the constituents pass on information about external disturbances, like sound waves. Therefore, sound waves travel faster through these media. Compared to solids, the constituents in a liquid are less tightly bound. Thus, sound...
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A material's elastic behavior is characterized by the disappearance of stress once the load is removed, allowing the material to return to its original state. However, when stress surpasses the yield point, yielding commences, marking the onset of plastic deformation or permanent set. This change from elastic to plastic behavior is influenced by the peak stress value and the duration before the load is removed. An intriguing observation occurs when a specimen is loaded, unloaded, and...
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Related Experiment Video

Updated: Feb 19, 2026

Studying Large Amplitude Oscillatory Shear Response of Soft Materials
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Studying Large Amplitude Oscillatory Shear Response of Soft Materials

Published on: April 25, 2019

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Soft Matter Lubrication: Does Solid Viscoelasticity Matter?

Carmine Putignano1,2, Daniele Dini1

  • 1Department of Mechanical Engineering, Imperial College London , London SW7 2AZ, United Kingdom.

ACS Applied Materials & Interfaces
|November 8, 2017
PubMed
Summary
This summary is machine-generated.

A new model explains soft material lubrication, revealing a visco-elasto-hydrodynamic lubrication (VEHL) regime. This framework accounts for solid viscoelasticity, impacting friction and film thickness unlike classical models.

Keywords:
frictionlubricationviscoelasticity

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Area of Science:

  • Tribology
  • Soft Matter Physics
  • Materials Science

Background:

  • Classical lubrication theories fail to explain phenomena in soft viscoelastic materials, common in engineering and biomedical fields.
  • Existing models cannot account for unexpected film ruptures or friction-speed dependencies due to time-independent material properties.

Purpose of the Study:

  • To propose a new modeling framework for soft matter lubrication that incorporates solid viscoelasticity.
  • To investigate the impact of solid viscoelasticity on fluid film lubrication and identify new lubrication regimes.

Main Methods:

  • Development of a coupled modeling strategy to link solid viscoelasticity with fluid film lubrication.
  • Experimental validation using an interferometric technique to measure lubrication phenomena.
  • Analysis of pressure distributions, film thickness, and friction under varying conditions.

Main Results:

  • Introduction of the visco-elasto-hydrodynamic lubrication (VEHL) regime, dependent on fluid flow and solid hysteretic response coupling.
  • Observed pressure asymmetry with an inlet peak and significant outlet film shrinkage.
  • Friction is influenced by viscoelastic hysteresis, in addition to viscous losses, differing from classical elasto-hydrodynamic lubrication (EHL).

Conclusions:

  • The proposed framework accurately captures solid/fluid interactions in soft matter lubrication.
  • Solid viscoelasticity significantly alters lubrication behavior, leading to distinct VEHL characteristics compared to EHL.
  • A criterion is proposed to evaluate the significance of solid viscoelasticity in soft matter lubrication.