Enhancing effectiveness of lubricated systems: Interplay of electrokinetics,hydrodynamics, substrate compliance and fluid rheology Article Swipe

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Siddhartha Mukherjee , Sunando DasGupta , Suman Chakraborty ·

YOU? · · 2019 · Open Access ·

Enhancing the effectiveness of lubricated systems extensively used in research communities still remains a challenging proposition. In recent years, some efforts have been made in coupling interfacial phenomenon like electrokinetics with lubricated systems for improved performance, but were relatively scarce. Towards this, employing an intricate coupling between substrate compliance, hydrodynamic and electrokinetic modulations we have analyzed the alteration in the flow physics in a deformable microchannel under the rheological premises of viscoelastic fluids which closely resemblance bio-fluids typically used in several bio and micro-fluidic applications. Here, we show that by making a judicious combination of involving parameters like concentration and molecular weight of polymer, concentration of electrolyte, monitoring the quality of Newtonian solvent one can achieve substantial augmentation in the load carrying capacity of the microchannel, thus having immense implications for novel design and performance of lubricated systems.

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Electrokinetic phenomena Microchannel Rheology Fluidics Viscoelasticity Materials science Coupling (piping) Newtonian fluid Substrate (aquarium) Mechanics Flow (mathematics) Nanotechnology Non-Newtonian fluid Electrolyte Mechanical engineering Chemistry Engineering Physics Composite material Geology Aerospace engineering Oceanography Physical chemistry Electrode

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Type: preprint
Language: en
Landing Page: https://arxiv.org/pdf/1901.07360
OA Status: green
Related Works: 20
OpenAlex ID: https://openalex.org/W2914748118

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Title: Enhancing effectiveness of lubricated systems: Interplay of electrokinetics,hydrodynamics, substrate compliance and fluid rheology

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Type: preprint

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Language: en

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Publication year: 2019

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Publication date: 2019-01-10

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Authors: Siddhartha Mukherjee, Sunando DasGupta, Suman Chakraborty

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Landing page: https://arxiv.org/pdf/1901.07360

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Concepts: Electrokinetic phenomena, Microchannel, Rheology, Fluidics, Viscoelasticity, Materials science, Coupling (piping), Newtonian fluid, Substrate (aquarium), Mechanics, Flow (mathematics), Nanotechnology, Non-Newtonian fluid, Electrolyte, Mechanical engineering, Chemistry, Engineering, Physics, Composite material, Geology, Aerospace engineering, Oceanography, Physical chemistry, Electrode

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Cited by: 0

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Related works (count): 20

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