Fluid viscous dampers have been widely used for suppression of high velocity shocks. While linear fluid viscous dampers have been used for a long time, nonlinear fluid viscous dampers show considerable promise due to their superior energy dissipation characteristics and significant reduction in the damper force compared to a linear fluid viscous damper for the same peak displacement. This paper presents results from experimental study to characterize fluid viscous dampers when subjected to half-cycle sine shock excitation. The mathematical formulation and a numerical study to evaluate the relative performance of structures with fluid viscous dampers subjected to short-duration shock (impulse) loading are also discussed. The influence of dam...
In the paper, the seismic performance of steel frames equipped with nonlinear viscous dampers is ana...
A direct procedure for the seismic design of regular multi-storey frame structures with added viscou...
In the last decades many strategies for seismic vulnerability mitigation of structures have been dev...
Energy dissipating damping devices such as fluid viscous dampers (FVDs) often have applications in s...
The insertion of fluid viscous dampers in building structures is an innovative technology that can i...
Energy dissipation devices are widely used to enhance the response of structures subjected to dynami...
A simplified design method for SDF and MDF systems equipped with non-linear viscous dampers is propo...
Global approval of the use of fluid viscous dampers to control the buildings response against dynami...
In this paper a simplified direct assessment method for nonlinear structures equipped with nonlinear...
In this paper a direct procedure for evaluating the damping ratio of structures equipped with non-li...
The paper illustrates the experimental results obtained in several tests performed on different type...
In this paper a simplified direct assessment method for nonlinear structures equipped with nonlinear...
In this paper, the dynamic behavior of two identical adjacent structures connected with viscous damp...
The insertion of fluid viscous dampers in building structures is an innovative technology which can ...
In the paper, the seismic performance of steel frames equipped with nonlinear viscous dampers is ana...
A direct procedure for the seismic design of regular multi-storey frame structures with added viscou...
In the last decades many strategies for seismic vulnerability mitigation of structures have been dev...
Energy dissipating damping devices such as fluid viscous dampers (FVDs) often have applications in s...
The insertion of fluid viscous dampers in building structures is an innovative technology that can i...
Energy dissipation devices are widely used to enhance the response of structures subjected to dynami...
A simplified design method for SDF and MDF systems equipped with non-linear viscous dampers is propo...
Global approval of the use of fluid viscous dampers to control the buildings response against dynami...
In this paper a simplified direct assessment method for nonlinear structures equipped with nonlinear...
In this paper a direct procedure for evaluating the damping ratio of structures equipped with non-li...
The paper illustrates the experimental results obtained in several tests performed on different type...
In this paper a simplified direct assessment method for nonlinear structures equipped with nonlinear...
In this paper, the dynamic behavior of two identical adjacent structures connected with viscous damp...
The insertion of fluid viscous dampers in building structures is an innovative technology which can ...
In the paper, the seismic performance of steel frames equipped with nonlinear viscous dampers is ana...
A direct procedure for the seismic design of regular multi-storey frame structures with added viscou...
In the last decades many strategies for seismic vulnerability mitigation of structures have been dev...