[[abstract]]Long-stroke fluid dampers may be installed under seismic isolation systems to provide supplementary damping. Due to the larger vibration amplitude and velocity, highly nonlinear viscoelastic behavior may exist in a long-stroke fluid damper. In order to accurately simulate the hysteretic behavior of such a damper, this paper presents and experimentally verifies a mathematical model called the generalized Maxwell model (GMM). Similar to the classic Maxwell model, the GMM is composed of a stiffness and a viscous elements connected in series. However, nonlinearity is incorporated into both elements of the GMM by assuming that their resistant forces are exponential functions of the relative velocity and deformation of the damper. By ...
Hysteric damping is often modelled thanks to linear viscoelastic approaches such as "nearly constant...
[[abstract]]Viscous fluid dampers have been used in many building and bridge construction projects f...
Viscoelastic damping devices are effective in mitigating vibrations experienced by Civil Engineering...
[[abstract]]Long-stroke fluid dampers may be installed under seismic isolation systems to provide su...
[[abstract]]To date, various types of energy dissipation devices (EDDs) have been invented and appli...
Energy dissipation devices are widely used to enhance the response of structures subjected to dynami...
A constitutive model is presented for the hysteretic behavior of elastomeric material, called the Mo...
Today, a number of researchers are broadly studying the effective implementation of supplemental sei...
The dynamic characteristics of viscoelastic components depend on frequency, amplitude, preload, and ...
Global approval of the use of fluid viscous dampers to control the buildings response against dynami...
From the point of view of suspension damper, semi-active dampers with only minimal power requirement...
Hysteretic damping is often modeled by means of linear viscoelastic approaches such as “nearly const...
The paper illustrates the experimental results obtained in several tests performed on different type...
Hysteretic damping is often modeled by means of linear viscoelastic approaches such as “nearly const...
The effects of temperature on the energy dissipation of viscoelastic dampers (VED) for seismic mitig...
Hysteric damping is often modelled thanks to linear viscoelastic approaches such as "nearly constant...
[[abstract]]Viscous fluid dampers have been used in many building and bridge construction projects f...
Viscoelastic damping devices are effective in mitigating vibrations experienced by Civil Engineering...
[[abstract]]Long-stroke fluid dampers may be installed under seismic isolation systems to provide su...
[[abstract]]To date, various types of energy dissipation devices (EDDs) have been invented and appli...
Energy dissipation devices are widely used to enhance the response of structures subjected to dynami...
A constitutive model is presented for the hysteretic behavior of elastomeric material, called the Mo...
Today, a number of researchers are broadly studying the effective implementation of supplemental sei...
The dynamic characteristics of viscoelastic components depend on frequency, amplitude, preload, and ...
Global approval of the use of fluid viscous dampers to control the buildings response against dynami...
From the point of view of suspension damper, semi-active dampers with only minimal power requirement...
Hysteretic damping is often modeled by means of linear viscoelastic approaches such as “nearly const...
The paper illustrates the experimental results obtained in several tests performed on different type...
Hysteretic damping is often modeled by means of linear viscoelastic approaches such as “nearly const...
The effects of temperature on the energy dissipation of viscoelastic dampers (VED) for seismic mitig...
Hysteric damping is often modelled thanks to linear viscoelastic approaches such as "nearly constant...
[[abstract]]Viscous fluid dampers have been used in many building and bridge construction projects f...
Viscoelastic damping devices are effective in mitigating vibrations experienced by Civil Engineering...