Inequality boundary condition (w<inf) and passing condition between solvers (w1 == w2)
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Hello, I am failing in finding solution for a following problem:
I have a system of three consecutive differential equations, where each solves deformation "w" (in z direction) depending on radius "r" of an element which has 1-3 layers (piezoelectric sandwich) where each segment (1,2,3 layers) have its own similar DE. I need somehow tell the solver (currently ode45) two things about the conditions:
1) that at r=0, the calculated variable w<inf (because of the division by zero) - it only accepts numbers
2) each interval of the deformed element is connected by inner boundaries, i.e. w1 = w2 (condition for one DE is the solution of other DE), or Dw1 = Dw2
I want to do it purely numerically, so I don't want to express the conditions from equation, because I have an analytical solution and FEM solutions and need to compare them with the numerical solution. This also means that I know the system, I even know the solution, I just need to tell matlab to recalculate it for me numerically.
I tried other solvers, I tried checking BVPs. The issue is, that the only boundary condition is that at the ends of the element the deformation is zero, all of the rest is calculated and the origin of the deformation is from within the element itself (piezoelectric effect).
Would it be better to use simulink for this?
*Based on request, including the equations in question (although the question is general):
And conditions on the boundaries:
and between segments (only one set of them):
I just need to somehow put the inner and inequality conditions instead of the zeroes:
[Sol3] = ode45(f3,[0 R_s],[0, 0, 0, 0, 0]);
[Sol2] = ode45(f2,[R_s R_a],[0, 0, 0, 0, 0]);
[Sol1] = ode45(f1,[R_a R_m],[0, 0, 0, 0, 0]);
7 Commenti
Torsten
il 19 Set 2024
Modificato: Torsten
il 19 Set 2024
The coupling at the interior points is done by exploiting the feature of bvp4c to solve Multipoint Boundary Value problems:
As said: Every numerical solver needs 5 explicit exterior boundary conditions in sum. A condition that only says that a certain function value or derivative is finite is useless for a numerical computation. In heat transfer problems, the condition that T is finite at r = 0 in cylindrical or spherical coordinates is replaced by dT/dr = 0 at r = 0, e.g. This will numerically exclude log(r) or 1/r terms that appear in the general analytical solution.
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