Hi Daneil,
I don't see any signs that your calculation is incorrect, although in some cases you may have to run the calculation out further in time so that the solution can settle down. If you define
gamma = b/m
w0 = sqrt(k/m)
then for the underdamped case that you have, the requirement is gamma < 2*w0 and the expected amplitude for large times is
A = (F0/m)/sqrt((w^2-w0^2)^2 + gamma^2*w^2)
which agrees pretty well. With underdamping, the particular solutions fall off like exp((-gamma/2)*t) and a suitable wait time for the solution to down to a constant amplitude (so you get a correct result) is
waitime = 8/gamma
Here k/m = w0 = 4 and one of your frequencies is w=4, so in that case you would expect the solution to be quite large for small b, which is what happens. For fixed w, A decreases as b increases and I didn't see any indications otherwise.
