Good evening,
I am attempting to model the response of a fixed beam when driven by an acoustic source within a fluid. Initially, I used an eigenfrequency study and obtained results that make sense to me. Next, I am trying to include the source and use a time dependent modal study to observe the beam's motion over time and its response at certain frequencies. However, when I run this study, I get the error "No eigenpair solution selected."
I have attached my model (cleared the mesh and solutions due to size). I have a few questions:
1. To model the source, I am using a flat circle set a certain distance away from the beam and using the interior normal acceleration function with x_acceleration = (constant)*cos(2*pi*freq*t). Is this the correct way to model an acoustic source driving the beam at a frequency freq for a time vector t?
2. I have used the acoustic-structure module, the fluid-structure interaction, and the solid mechanics module, and I'm not sure if using all three is unnecessary. I am trying to have the beam fixed at one end and submerged in a given fluid. Is this correct?
3. I ran this model with simply a time dependent model and it converges but the beam does not show any displacement or deformation. What could cause a result like this?
Thanks for any help!
I am attempting to model the response of a fixed beam when driven by an acoustic source within a fluid. Initially, I used an eigenfrequency study and obtained results that make sense to me. Next, I am trying to include the source and use a time dependent modal study to observe the beam's motion over time and its response at certain frequencies. However, when I run this study, I get the error "No eigenpair solution selected."
I have attached my model (cleared the mesh and solutions due to size). I have a few questions:
1. To model the source, I am using a flat circle set a certain distance away from the beam and using the interior normal acceleration function with x_acceleration = (constant)*cos(2*pi*freq*t). Is this the correct way to model an acoustic source driving the beam at a frequency freq for a time vector t?
2. I have used the acoustic-structure module, the fluid-structure interaction, and the solid mechanics module, and I'm not sure if using all three is unnecessary. I am trying to have the beam fixed at one end and submerged in a given fluid. Is this correct?
3. I ran this model with simply a time dependent model and it converges but the beam does not show any displacement or deformation. What could cause a result like this?
Thanks for any help!