•For a high-static-low-dynamic-stiffness vibration isolator, a stiffness range parameter d and a static equilibrium position stiffness Ksep are introduced, which can intuitively represent the different stiffnesses of the system.•The maximum displacement response amplitude, maximum force transmissibility and peak frequency are obtained using analytical method.•The effects of the parameters d and Ksep on the steady state response and vibration isolation performance of the high-static-low-dynamic-stiffness vibration isolator are clearly analysed.•Considering the designed maximum displacement response amplitude, the beneficial stiffness design of the isolation system is discussed based on the static and dynamic analysis.
International Journal of Mechanical Sciences – Elsevier
Published: Jul 1, 2018
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