DYNAMIC MODEL OF VIBRATION ISOLATOR UNDER STATIC LOAD

The dynamic properties of the rubber element of a vibration isolator are a!ected by its compression ratio, and thus the dynamic characteristics of a vibration isolator depend upon the static load. A vibration isolator may be modelled in terms of its phase velocity. Therefore, to predict the e!ect of

A two-mass method is proposed to determine the four-pole parameters of a uni-directional asymmetrical vibration isolator. It may be regarded as a universal testing procedure applicable to uni-directional or bi-directional, and asymmetrical or symmetrical vibration isolators under static load. Genera

The present investigation is concerned with the evaluation of the impact toughness of commercial-grade Propylene polymers. Conventional impact static stressstrain and static fracture experiments were carried out. Static stress-strain experiments revealed different pattern behaviors among the materia

The design of an active controller for a vibration isolation table employing pneumatic vibration isolators requires an accurate mathematical model of the isolator. An experimental investigation of the validity of available models has been performed and indicates significant errors between predicted

## Abstract In this investigation, the static and dynamic behavior of copper‐filled epoxy particulate composites has been experimentally studied. The influence of particle‐weight fraction (0–25%), on the static behavior and filler concentration, temperature and frequency on the dynamic behavior of

All the forces in the real-world act dynamically on structures. Since dynamic loads are extremely di$cult to handle in analysis and design, static loads are usually utilized with dynamic factors. Static loads are especially exploited well in structural optimization where many analyses are carried ou