Thanks for the reply Luke.
I think I got the problem solved. For now I am defining damage as a constant variable equal to 1 and I only define it in a particular domain of the entire geometry.
Now I have a different problem concerning the diffusion process.
I have my geometry divided in different domains so that I can assign each diffusion process to different parts of the geomtry.
I have an initial concentration of cells in domain A and those cells diffuse along that domain (A) and I also want them to diffuse to the "neighbour" domain B. For that, I create flux between the boundary that separates A and B. I run the study but at the end the concentration has varied along domain A but nothing has appeared on the domain B. I have also tried defining an open boundary condition. I want the initial concentration of these cells to be zero on domain B (or very small).
What am I doing wrong?
I think I got the problem solved. For now I am defining damage as a constant variable equal to 1 and I only define it in a particular domain of the entire geometry.
Now I have a different problem concerning the diffusion process.
I have my geometry divided in different domains so that I can assign each diffusion process to different parts of the geomtry.
I have an initial concentration of cells in domain A and those cells diffuse along that domain (A) and I also want them to diffuse to the "neighbour" domain B. For that, I create flux between the boundary that separates A and B. I run the study but at the end the concentration has varied along domain A but nothing has appeared on the domain B. I have also tried defining an open boundary condition. I want the initial concentration of these cells to be zero on domain B (or very small).
What am I doing wrong?