AbstractFluid dampers are an important tool for dissipating unwanted vibrations in a range of engineering structures. This paper examines the effects of amplifying the displacements transferred to a non-linear damper, to increase the effectiveness of the damper in a range of situations commonly encountered in civil engineering structures. These include, (i) the ability to “fine tune” the required damping for a particular size damper, (ii) the ability to have a set of the same size dampers, but with different amplification factors to achieve a specific damping task, and (iii) to increase the sensitivity of the damper to small movements which effectively extends the range over which the damper works. Through numerical simulations and experime...
Infrastructures around the world are impacted by seismic events and therefore can suffer different t...
Nowadays, destructive environmental forces such as earthquakes, tsunamis and winds accompanied with ...
This paper investigates the efficiency of Tuned Liquid Dampers (TLDs) in mitigating dynamic response...
Fluid dampers are an important tool for dissipating unwanted vibrations in a range of engineering st...
Viscous fluid dampers have proved to be effective in suppressing unwanted vibrations in a range of e...
An earlier mathematical research of a single-degree-of-freedom (SDOF) framework strictly sustaining ...
peer reviewedThis paper provides information about the numerical simulation of the dynamic behaviour...
Nowadays liquid tuned dampers are used in high-rise buildings and many others “dynamically sensitive...
The study presents the design and the experimental characterization of a new energy dissipation devi...
Energy dissipation is critical to minimizing damage and degradation of structural connections due to...
The use of supplemental devices as energy dissipation systems for improved seismic performance of bu...
The ability of bones to concentrate material where the body needs most of its strength and the abili...
In this study, the mass damper designed by nonlinear dynamic analysis was evaluated so that its resp...
This manuscript introduces a new damping device which is composed of a water tank and a pendulum. Th...
A Tuned Mass Damper (TMD) is a device consisting of a mass, a spring and a viscous damper attached t...
Infrastructures around the world are impacted by seismic events and therefore can suffer different t...
Nowadays, destructive environmental forces such as earthquakes, tsunamis and winds accompanied with ...
This paper investigates the efficiency of Tuned Liquid Dampers (TLDs) in mitigating dynamic response...
Fluid dampers are an important tool for dissipating unwanted vibrations in a range of engineering st...
Viscous fluid dampers have proved to be effective in suppressing unwanted vibrations in a range of e...
An earlier mathematical research of a single-degree-of-freedom (SDOF) framework strictly sustaining ...
peer reviewedThis paper provides information about the numerical simulation of the dynamic behaviour...
Nowadays liquid tuned dampers are used in high-rise buildings and many others “dynamically sensitive...
The study presents the design and the experimental characterization of a new energy dissipation devi...
Energy dissipation is critical to minimizing damage and degradation of structural connections due to...
The use of supplemental devices as energy dissipation systems for improved seismic performance of bu...
The ability of bones to concentrate material where the body needs most of its strength and the abili...
In this study, the mass damper designed by nonlinear dynamic analysis was evaluated so that its resp...
This manuscript introduces a new damping device which is composed of a water tank and a pendulum. Th...
A Tuned Mass Damper (TMD) is a device consisting of a mass, a spring and a viscous damper attached t...
Infrastructures around the world are impacted by seismic events and therefore can suffer different t...
Nowadays, destructive environmental forces such as earthquakes, tsunamis and winds accompanied with ...
This paper investigates the efficiency of Tuned Liquid Dampers (TLDs) in mitigating dynamic response...