How can I simulate 2 materials in pde toolbox script?
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In order to simulate 2 materials in a heat diffusion equation I define 2 different geometries, but then how I define the different coefficients for each material? One has heat source and the other hasn't. I am doing it as shown bellow, but the results are not what I would expect, so I am wondering if I am doing it right. There is another way to do that? Do I need to define 2 diff. equations instead?
Thank you very much in advance,
Here is my script:
numberOfPDE = 1;
model = createpde(numberOfPDE);
r1 = [3,4,0,0,0.5*10^-6,0.5*10^-6,-160*10^-9,-1.16*10^-6,-1.16*10^-6,-160*10^-9];
r2 = [3,4,0,0,0.5*10^-6,0.5*10^-6,0,-160*10^-9,-160*10^-9,0];
gdm = [r1; r2]';
g = decsg(gdm,'R1+R2',['R1'; 'R2']');
geometryFromEdges(model,g);
specifyCoefficients(model,'m',0,'d',5,'c',16,'a',0,'f',0,'face',1);
specifyCoefficients(model,'m',0,'d',5,'c',50,'a',0,'f',2*10^18,'face',2);
applyBoundaryCondition(model,'edge',1,'r',298);
applyBoundaryCondition(model,'edge',2,'q',2000,'g',596000);
applyBoundaryCondition(model,'edge',3,'g',0);
applyBoundaryCondition(model,'edge',4,'g',0);
applyBoundaryCondition(model,'edge',6,'g',0);
applyBoundaryCondition(model,'edge',7,'g',0);
hmax = 2*10^-8; % element size
msh=generateMesh(model,'Hmax',hmax);
tinitial = 0;
tfinal = 2*10^-8;
interval = 100;
tlist = linspace(tinitial,tfinal,interval);
u0 = 298; % initial temperature in the geometry
setInitialConditions(model,u0);
results = solvepde(model,tlist);
u = result.NodalSolution;
%Plot the solution at time t = tfinal.
figure;
pdeplot(model,'xydata',results.NodalSolution,'contour','on')
2 comentarios
michio
el 8 de Sept. de 2016
It seems to me that you are doing alright in specifying different coefficients for different sub-domains. I assume two different materials are represented by the two sub-domains.
specifyCoefficients(model,'m',0,'d',5,'c',16,'a',0,'f',0,'face',1);
specifyCoefficients(model,'m',0,'d',5,'c',50,'a',0,'f',2*10^18,'face',2);
It may help us help you if you describe more about your issues, your problem settings, what part of the result is not what you expect.
Laura Monreal
el 14 de Sept. de 2016
Hi Michio,
I changed my name because I had problems with the other sesion. Thank you for you answer. So, in fact my f coefficient for the subdomain 2 is a cosinus that I do not see in the simulation, but i see it when I simulatet the "material" 2 byitself. I think I am not getting the result I spect because of the mesh, there is a way to introduce different meshing for different subdomains? I saw that you can not implement refinemesh usind a PDEmodel, so how should I do it?
Thank you in advance
Respuesta aceptada
Thanks for your clarification. As you have already made use of it, but sub-domain support is available for 2D problems, so yes you can simulate 2 materials using PDE Toolbox.
If your issue is really caused by meshing, you can try legacy workflow that supports refinement. This entry might be of your help. How can I refine a subdomain in the PDE Toolbox mesh generation tool?
I didn't understand the details since you mentioned "my f coefficient for the subdomain 2 is a cosinus". If your f coefficient needs to be expressed as some function of space, you can try defining f coefficient in a functional form. The related doc page is f Coefficient for specifyCoefficients
6 comentarios
Laura Pare
el 15 de Sept. de 2016
michio
el 15 de Sept. de 2016
Hi Laura,
You are correct, subdomain refinement is not currently available for PDEModel, the recommended workflow, but I believe it's doable in the legacy workflow.
The URL I put in the above answer was wrong. I apologize. Please refer to https://jp.mathworks.com/matlabcentral/answers/302250-how-can-i-refine-a-subdomain-in-the-pde-toolbox-mesh-generation-tool
The page on hyperbolic is depreciated in R2016b, so I put a direct link to the one from R2016a. You might need to login to your Mathworks account to visit.
Laura Pare
el 16 de Sept. de 2016
michio
el 16 de Sept. de 2016
It would be great if I could reproduce the issues in my end, but I am guessing c(r), indexing in to a constant, causes the problem. Why don't you try
function c = ccoeff(sd)
c = 50*ones(size(sd)); % d on subdomain 1
r = '(sd == 2)'; % subdomain 2
c2 = 16*ones(size(sd)); % coefficient on subdomain 2
c(r) = c2(r); % d on subdomain 2
end
instead. Let me know how it goes :)
Laura Pare
el 16 de Sept. de 2016
michio
el 16 de Sept. de 2016
You are welcome!
Más respuestas (2)
Alan Weiss
el 8 de Sept. de 2016
You might like the plot better if you plot the end time rather than the initial time:
pdeplot(model,'xydata',results.NodalSolution(:,end))
I am not sure that you have scaled things correctly, because I see very little difference between this plot and the plot at the second time step:
figure;pdeplot(model,'xydata',results.NodalSolution(:,2))
Good luck,
Alan Weiss
MATLAB mathematical toolbox documentation
1 comentario
Laura Pare
el 8 de Sept. de 2016
Moncef
el 1 de Jul. de 2019
0 votos
Hello,
please how to introduce the c coeffecient which is has matrix form:
c = [x-y, 0; 1, x.^2]
using "specifyCoefficients" matlab command?
With best regards
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