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Please help: 3D model of an elastic (collapsible) thin walled tube with fluid flow (3.5a)
Posted 19 mai 2012, 18:08 UTC−4 MEMS & Nanotechnology, MEMS & Piezoelectric Devices Version 3.5a 1 Reply
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Hi Everyone,
I am working with with two other engineering students trying to create this model for some of our school faculty.
Our final goal is to output a output a force - displacement curve. The model should show the deformation of the vessel walls as the fluid flows through it.
Our variables are internal flow rate ( affecting internal pressure in the tube ) and external pressure.
We created the internal flow rate just by doing boundary conditions of high pressure in ( 2989.0 [N/m^2] ) and zero pressure out. Our fluid is just water (density = 995.7 [kg/m^3] , viscosity = 0.789 Pa*s)
The dimensions of our tube are 6.35E-3m inner (lumen) diameter, 7.32374E-3m outer diameter, (wall thickness = 3.96875E-4 m)
Modulus of the tube wall is 0.8MPa, Poisson's ratio = 0.5.
Our model is for some reason saved as a .m file and we cannot figure out how to open it in COMSOL. I attached the .m code if that will help anyone understand our model, if not please ignore it.
We could only get a velocity profile to show up, but couldn't get any stress values to appear on the walls.
any help would be very appreciated. We need help with every aspect of it, including which physics to use, how to model the fluid flow, and the vessel deformation, and how to couple the two.
Thank you everyone
I am working with with two other engineering students trying to create this model for some of our school faculty.
Our final goal is to output a output a force - displacement curve. The model should show the deformation of the vessel walls as the fluid flows through it.
Our variables are internal flow rate ( affecting internal pressure in the tube ) and external pressure.
We created the internal flow rate just by doing boundary conditions of high pressure in ( 2989.0 [N/m^2] ) and zero pressure out. Our fluid is just water (density = 995.7 [kg/m^3] , viscosity = 0.789 Pa*s)
The dimensions of our tube are 6.35E-3m inner (lumen) diameter, 7.32374E-3m outer diameter, (wall thickness = 3.96875E-4 m)
Modulus of the tube wall is 0.8MPa, Poisson's ratio = 0.5.
Our model is for some reason saved as a .m file and we cannot figure out how to open it in COMSOL. I attached the .m code if that will help anyone understand our model, if not please ignore it.
We could only get a velocity profile to show up, but couldn't get any stress values to appear on the walls.
any help would be very appreciated. We need help with every aspect of it, including which physics to use, how to model the fluid flow, and the vessel deformation, and how to couple the two.
Thank you everyone
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1 Reply Last Post 20 mai 2012, 09:03 UTC−4