The control of vibrations of a mass-spring system with a damper made of granular material is modeled, numerically simulated and experimentally verified. The damper consists of a hermetically closed flexible sleeve filled with granular material. Pumping air out of or into the sleeve increases or decreases the under-pressure, which increases or decreases the compression of the granules, causing the system to become more or less rigid. This, in turn, increases or decreases the energy dissipation, which provides the damping control mechanism of the system's vibrations. The spring is assumed to be nonlinear and once the coils are fully compressed it becomes essentially rigid. The changes to the damping characteristics of the damper caused by the...
This paper considers dampers comprising collections of viscoelastic particles that are subjected to ...
By means of particle-based numerical simulations using the discrete element method, we address the q...
We study, via discrete element method simulations, the apparent mass (m, the ratio of a driving forc...
A particle damper consists of a bed of granular materials moving in cavities within a multi degree-o...
Granular dampers are passive devices used to attenuate mechanical vibrations. The most common config...
Granular damping is a passive vibration suppression technique which attenuates the response of a vib...
In the paper a proposal of granular damper prototype has been introduced. The granular damper works ...
Granular materials can be used for damping structural vibrations by dissipating the vibration energy...
Background and aims. Mass-Spring systems are second order linear differential equations that have va...
The use of granular media to induce vibration energy’s dissipation in lighter huge industrial struct...
Heavy structures (such as machine-tool bases) are sometimes filled with granular materials (such as ...
Granular damping has been found to be a robust solution for attenuating noise and vibration in diffi...
Additively manufactured parts are often created with cavities for weight reduction or other mechanic...
This paper presents a consistent and concise analysis of the free and forced vibration of a mass sup...
The typical model of the damped mechanical oscillator is the simple spring, fixed at one end, with a...
This paper considers dampers comprising collections of viscoelastic particles that are subjected to ...
By means of particle-based numerical simulations using the discrete element method, we address the q...
We study, via discrete element method simulations, the apparent mass (m, the ratio of a driving forc...
A particle damper consists of a bed of granular materials moving in cavities within a multi degree-o...
Granular dampers are passive devices used to attenuate mechanical vibrations. The most common config...
Granular damping is a passive vibration suppression technique which attenuates the response of a vib...
In the paper a proposal of granular damper prototype has been introduced. The granular damper works ...
Granular materials can be used for damping structural vibrations by dissipating the vibration energy...
Background and aims. Mass-Spring systems are second order linear differential equations that have va...
The use of granular media to induce vibration energy’s dissipation in lighter huge industrial struct...
Heavy structures (such as machine-tool bases) are sometimes filled with granular materials (such as ...
Granular damping has been found to be a robust solution for attenuating noise and vibration in diffi...
Additively manufactured parts are often created with cavities for weight reduction or other mechanic...
This paper presents a consistent and concise analysis of the free and forced vibration of a mass sup...
The typical model of the damped mechanical oscillator is the simple spring, fixed at one end, with a...
This paper considers dampers comprising collections of viscoelastic particles that are subjected to ...
By means of particle-based numerical simulations using the discrete element method, we address the q...
We study, via discrete element method simulations, the apparent mass (m, the ratio of a driving forc...