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Thanks!
Bingham plastic model explanation.
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braeden1
- Posts: 4
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Bingham plastic model explanation.
Hi, for my project, I'm testing the shear strength of a material with the properties of a Bingham plastic. I have looked up what it is and have found the equation descibing its shear stress. However, I do not understand what it means. Any help you could give me on this would be greatly appreciated.
Thanks!
Thanks!
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deleted-71417
- Former Expert
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- Joined: Wed Oct 03, 2007 12:24 am
Re: Bingham plastic model explanation.
Hi,
In a normal Newtonian fluid, fluid is directly proportional to pressure (shear stress) applied.
In a Bingham plastic there is no flow until a certain physical shear stress is exceeded, then flow is proportional to the shear stress applied minus the critical shear stress. In physical terms the material behaves like a solid until the applied shear stress exceeds the critical shear stress, then behaves like a fluid with an applied apparent shear stress being like the actual shear stress ,inus the critical shear stress.
It has been suggested a gppd physical model is toothpaste coming out of a tube of toothpaste.See:
http://en.wikipedia.org/wiki/Bingham_plastic
I hope this helps. If not search google.com for “bingham plastic” and start reading the web pages listed there.
Best regards,
Barrett L Tomlinson
In a normal Newtonian fluid, fluid is directly proportional to pressure (shear stress) applied.
In a Bingham plastic there is no flow until a certain physical shear stress is exceeded, then flow is proportional to the shear stress applied minus the critical shear stress. In physical terms the material behaves like a solid until the applied shear stress exceeds the critical shear stress, then behaves like a fluid with an applied apparent shear stress being like the actual shear stress ,inus the critical shear stress.
It has been suggested a gppd physical model is toothpaste coming out of a tube of toothpaste.See:
http://en.wikipedia.org/wiki/Bingham_plastic
I hope this helps. If not search google.com for “bingham plastic” and start reading the web pages listed there.
Best regards,
Barrett L Tomlinson