Non-Newtonian Fluids: Difference between revisions

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Claimed by Kyle Sabell
Claimed by Kyle Sabell


A non-Newtonian fluid is a specific type of fluid which does not behave in the same manner as regular fluids. The most notable difference in non-Newtonian fluids is that their viscosity is dependent on the shear rate, or the rate that shearing deformation is applied. In a Newtonian fluid, the relationship between the shear rate and force applied can be modeled by a linear curve. Non-Newtonian fluids exhibit a behavior which lacks a clear relationship between the shear rate and force applied, meaning that the viscosity of the fluid changes when a force is applied.
A non-Newtonian fluid is a specific type of fluid which does not behave in the same manner as regular fluids. The most notable difference in non-Newtonian fluids is that their viscosity is dependent on the shear rate, or the rate that shearing deformation is applied. In a Newtonian fluid, the relationship between the shear rate and force applied can be modeled by a linear curve. Non-Newtonian fluids exhibit a behavior which lacks a straight-line relationship between the shear rate and force applied, meaning that the viscosity of the fluid changes when a force is applied. This is noted by the strange "dancing" movements provided by the fluid whenever it is vibrated. Another way of looking at this can be that for normal liquids, the resisting force will increase proportionally with the force applied. With a non-Newtonian fluid, however, the resisting force will NOT act proportionally to the force. For example, if you were to double the force on ketchup, a non-Newtonian fluid, the resisting force would actually decrease in half.
                              [[Fil<nowiki><nowiki>Insert non-formatted text here</nowiki></nowiki>e:thing.jpg]]
[[File:thing.jpg|500px|thumb|right|Oobleck, a 50/50 mixture of corn starch and water, with a vibrating force]][[File:Kylee.jpg|500px|thumb|right|]]
 
==Significance==
==Significance==
===Applications===
===Applications===
Non-Newtonian fluids have a variety of real-world applications. It has been found that they provide an excellent remedy to potholes, since the stress provided by fast-moving cars would drastically increase the viscosity of the dried fluid.  
Non-Newtonian fluids have a variety of real-world applications. It has been found that they provide an excellent remedy to potholes, since the stress provided by fast-moving cars would drastically increase the viscosity of the dried fluid, providing a stable driving surface. These fluids also have a place in body armor, specifically bullet-proof vests. In industry, non-Newtonian fluids are often used in hydraulic systems because of they become thicker when a larger force is applied. Recent uses for these fluids have included installment into sneakers. When the user is standing still, the liquid flows to the shape of the foot, but when the user is running, the fluid would become more solid, protecting the foot from injury.


===A Mathematical Model===
===A Mathematical Model===


What are the mathematical equations that allow us to model this topic.  For example <math>{\frac{d\vec{p}}{dt}}_{system} = \vec{F}_{net}</math> where '''p''' is the momentum of the system and '''F''' is the net force from the surroundings.
The basic behavior of a non-Newtonian fluid can be described with the following equation:


==Examples==
[[File:Kyleequation.png]]


Be sure to show all steps in your solution and include diagrams whenever possible


===Simple===
==History==
===Middling===
Non-Newtonian, as well as Newtonian, fluids were first described by scientist Isaac Newton during the 1600s. The idea came when Newton wanted to know how much force had to be applied to a liquid for the liquid to reach a desired flow. Upon working with many different types of fluids, Newton came to the conclusion that some liquids behaved in a very similar manner(Newtonian fluids), while others behaved in a very extraordinary and different manner(non-Newtonian fluids) which differed from his prediction that all liquids behaved homogeneously.
===Difficult===


==Connectedness==
#How is this topic connected to something that you are interested in?
#How is it connected to your major?
#Is there an interesting industrial application?


==Examples of Non-Newtonian Fluids==
==Examples of Non-Newtonian Fluids==
Line 38: Line 31:
== See also ==
== See also ==


Are there related topics or categories in this wiki resource for the curious reader to explore?  How does this topic fit into that context?
*[[Mass]]
*[[Melting Point]]
*[[Inertia]]


===Further reading===
===Further reading===


Books, Articles or other print media on this topic
#Tropea, Cameron; Yarin, Alexander L.; Foss, John F. (2007). Springer handbook of experimental fluid mechanics.
#Chhabra, R.P. (2006). Bubbles, Drops, and Particles In Non-Newtonian Fluids. (2nd ed.). Hoboken: Taylor & Francis Ltd.
#Fridtjov Irgens(2014). Rheology and Non-Newtonian Fluids.


===External links===
===External links===
[http://www.scientificamerican.com/article/bring-science-home-reaction-time/]
[https://www.quora.com/Do-shear-thickening-fluids-have-any-practical-uses]
 
[http://antoine.frostburg.edu/chem/senese/101/liquids/faq/non-newtonian.shtml]
[http://real-science.ifs.hr/wiki/Non-Newtonian_fluids#Non-Newtonian_Fluid_Sport_Shoes]
[http://io9.com/5715076/non-newtonian-fluids-the-weirdest-liquids-youve-ever-seen]


==References==
==References==


This section contains the the references you used while writing this page
*Tropea, Cameron; Yarin, Alexander L.; Foss, John F. (2007). Springer handbook of experimental fluid mechanics.
*Chhabra, R.P. (2006). Bubbles, Drops, and Particles In Non-Newtonian Fluids. (2nd ed.). Hoboken: Taylor & Francis Ltd.
*Fridtjov Irgens(2014). Rheology and Non-Newtonian Fluids.
*"What Is a Non-Newtonian Fluid?" General Chemistry Online: FAQ: Liquids:. N.p., n.d. Web. 03 Dec. 2015.
*Io9. "Non-Newtonian Fluids: For When You Want a Liquid That's Also a Solid." Io9.com. N.p., 20 Dec. 2010. Web.


[[Category:Which Category did you place this in?]]
[[Category: Properties of Matter]]

Latest revision as of 22:25, 3 December 2015

Claimed by Kyle Sabell

A non-Newtonian fluid is a specific type of fluid which does not behave in the same manner as regular fluids. The most notable difference in non-Newtonian fluids is that their viscosity is dependent on the shear rate, or the rate that shearing deformation is applied. In a Newtonian fluid, the relationship between the shear rate and force applied can be modeled by a linear curve. Non-Newtonian fluids exhibit a behavior which lacks a straight-line relationship between the shear rate and force applied, meaning that the viscosity of the fluid changes when a force is applied. This is noted by the strange "dancing" movements provided by the fluid whenever it is vibrated. Another way of looking at this can be that for normal liquids, the resisting force will increase proportionally with the force applied. With a non-Newtonian fluid, however, the resisting force will NOT act proportionally to the force. For example, if you were to double the force on ketchup, a non-Newtonian fluid, the resisting force would actually decrease in half.

Oobleck, a 50/50 mixture of corn starch and water, with a vibrating force

Significance

Applications

Non-Newtonian fluids have a variety of real-world applications. It has been found that they provide an excellent remedy to potholes, since the stress provided by fast-moving cars would drastically increase the viscosity of the dried fluid, providing a stable driving surface. These fluids also have a place in body armor, specifically bullet-proof vests. In industry, non-Newtonian fluids are often used in hydraulic systems because of they become thicker when a larger force is applied. Recent uses for these fluids have included installment into sneakers. When the user is standing still, the liquid flows to the shape of the foot, but when the user is running, the fluid would become more solid, protecting the foot from injury.

A Mathematical Model

The basic behavior of a non-Newtonian fluid can be described with the following equation:


History

Non-Newtonian, as well as Newtonian, fluids were first described by scientist Isaac Newton during the 1600s. The idea came when Newton wanted to know how much force had to be applied to a liquid for the liquid to reach a desired flow. Upon working with many different types of fluids, Newton came to the conclusion that some liquids behaved in a very similar manner(Newtonian fluids), while others behaved in a very extraordinary and different manner(non-Newtonian fluids) which differed from his prediction that all liquids behaved homogeneously.


Examples of Non-Newtonian Fluids

  • Ketchup
  • Toothpaste
  • Starch mixed with water
  • Shampoo
  • Blood
  • Custard
  • Paint

See also

Further reading

  1. Tropea, Cameron; Yarin, Alexander L.; Foss, John F. (2007). Springer handbook of experimental fluid mechanics.
  2. Chhabra, R.P. (2006). Bubbles, Drops, and Particles In Non-Newtonian Fluids. (2nd ed.). Hoboken: Taylor & Francis Ltd.
  3. Fridtjov Irgens(2014). Rheology and Non-Newtonian Fluids.

External links

[1] [2] [3] [4]

References

  • Tropea, Cameron; Yarin, Alexander L.; Foss, John F. (2007). Springer handbook of experimental fluid mechanics.
  • Chhabra, R.P. (2006). Bubbles, Drops, and Particles In Non-Newtonian Fluids. (2nd ed.). Hoboken: Taylor & Francis Ltd.
  • Fridtjov Irgens(2014). Rheology and Non-Newtonian Fluids.
  • "What Is a Non-Newtonian Fluid?" General Chemistry Online: FAQ: Liquids:. N.p., n.d. Web. 03 Dec. 2015.
  • Io9. "Non-Newtonian Fluids: For When You Want a Liquid That's Also a Solid." Io9.com. N.p., 20 Dec. 2010. Web.
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