Damper Optimization Design at Roderick Roger blog

Damper Optimization Design. The smart building structural design using such supplemental dampers is aimed at efficiently improving the structural damping performance under specified constraints, e.g., a constant cost constraint on dampers, the maximum local response constraints. Results determine that the energy dissipation capacity of the curved steel damper could be improved by 32% using shape optimization techniques compared to the conventional dampers. This paper takes the damping force, the dynamic range, the response time, and the function of the consistency of magnetic flux density of damping. The eficient design and configuration of the passive dampers are essential for the mitigation of damages due to the earthquake in the structure.

The eficient design and configuration of the passive dampers are essential for the mitigation of damages due to the earthquake in the structure. The smart building structural design using such supplemental dampers is aimed at efficiently improving the structural damping performance under specified constraints, e.g., a constant cost constraint on dampers, the maximum local response constraints. This paper takes the damping force, the dynamic range, the response time, and the function of the consistency of magnetic flux density of damping. Results determine that the energy dissipation capacity of the curved steel damper could be improved by 32% using shape optimization techniques compared to the conventional dampers.

General flow chart for the optimization of a Stockbridge damper

Damper Optimization Design This paper takes the damping force, the dynamic range, the response time, and the function of the consistency of magnetic flux density of damping. Results determine that the energy dissipation capacity of the curved steel damper could be improved by 32% using shape optimization techniques compared to the conventional dampers. This paper takes the damping force, the dynamic range, the response time, and the function of the consistency of magnetic flux density of damping. The smart building structural design using such supplemental dampers is aimed at efficiently improving the structural damping performance under specified constraints, e.g., a constant cost constraint on dampers, the maximum local response constraints. The eficient design and configuration of the passive dampers are essential for the mitigation of damages due to the earthquake in the structure.