Response of shock isolators with linear and quadratic damping

In this paper, a simple technique combining the straightforward perturbation method with Laplace transform has been developed to determine the transient response of a single degree-of-freedom system in the presence of non-linear, dissipative shock isolators. Analytical results are compared with thos

To improve the performance of a non-linear shock isolator, four di!erent alternatives are being considered and compared. These are (i) an isolator with a Coulomb damper, (ii) a three-element isolator, (iii) an isolator along with vibration absorber and (iv) a two-stage isolator. Three di!erent types

The effects of non-linear orifice type damping on the response of one-and two-degree of freedom (DOF) systems are studied. The damping is formulated through the hydraulic resistance of the fluid path as a function of the frequency of flow oscillation and mean flow velocity for the laminar and turbul

Chaotic oscillations of a harmonically excited mass on a non-linear isolator are investigated. The magnitude of the strictly dissipative damping force on the mass, provided by the isolator, is assumed to be proportional to the pth power of velocity. Both symmetric and asymmetric non-linear restoring