Simulation Analysis of the Small Wild Goose Pagoda Structure Using a Shape Memory Alloy-Suspension Pendulum Damping System (SMA-SPDS)

Abstract: To reduce the effects of earthquakes on the ancient Small Wild Goose Pagoda, a shape memory alloy-suspension pendulum damping system (SMA-SPDS) is developed by combining superelastic SMAs with damping pendulum theory. A MATLAB/Simulink simulation model of the SMA-SPDS is established and tested on a 1:10 scale model of the Pagoda. After verifying and comparing the simulation data with experimental results, a shock absorption analysis is performed on the prototype Pagoda. The optimum engineering design for the p… Show more

“…One of the highlights is the research and development of various SMA-based components and devices. In addition, many scholars have introduced SMA into the field of structural reinforcement [11][12][13][14]. After thermal activation, SMAs can realize the active control of structural stiffness and deformation, as well as repair the local damage and cracks of structures.…”

Advances in Shape Memory Alloy-Based Reinforcement in Steel Structures: A Review

“…One of the highlights is the research and development of various SMA-based components and devices. In addition, many scholars have introduced SMA into the field of structural reinforcement [11][12][13][14]. After thermal activation, SMAs can realize the active control of structural stiffness and deformation, as well as repair the local damage and cracks of structures.…”

Advances in Shape Memory Alloy-Based Reinforcement in Steel Structures: A Review