Steel lines for pressure measurement are closer to 1mm ID / 4mm OD.
High power requires that high pressure be multiplied by high volumetric flow, which needs bigger diameter lines, which have lower maximum pressure specifications, and bend less around corners.
If a balloon is inflated at a fixed volumetric rate, the radius rises with time. The pressure inside the balloon falls due to the change in curvature of the membrane. I wonder if there is a similar effect on rubber tubes.
A different situation occurs when the pressure is gradually increased, with no regulation of volume. There will come an applied pressure where the membrane stretches faster. That would define the burst pressure of a rubber balloon.
I don't know how the PV of spherical balloons compares to the PV of long cylindrical balloons, or clear vinyl tube, CVT.