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High-strength steel frames with SMA connections in self-centring energy-dissipation bays: insights and a multimodal nonlinear static procedure

Ke Ke, Michael C.H. Yam, Huanyang Zhang, Chi Chiu Lam, Xuhong Zhou

2020Smart Materials and Structures54 citationsDOIOpen Access PDF

Abstract

Abstract This study explores the effectiveness of shape-memory-alloy (SMA)-based self-centring energy-dissipation bays (SCEDBs) for enhancing the seismic performance of high-strength-steel (HSS) frames. The work commences with the development of an ensemble of prototype HSS frames equipped with SCEDBs, known as HSSF-SCEDB structures. The prototype systems are examined using cyclic-pushover and nonlinear-response-history analyses (NL-RHAs). According to the analysis database, it is found that the cyclic-pushover responses generally show a typical flag shape over a wide deformation range and that the post-earthquake residual deformations are below 0.5%, even following maximum interstorey drifts beyond the codified deformation threshold (i.e. 2%). To offer a practical tool to engineers for damage-control behaviour evaluation and seismic demand estimation, we develop a multimodal nonlinear static procedure based on a modified energy-balance concept. Conventional procedures relating to the fundamental vibration mode are also revisited. The results indicate that a medium-rise HSSF-SCEDB may be appreciably influenced by higher vibration modes. The difference between the average maximum interstorey drifts calculated by NL-RHAs and those obtained using the proposed procedure for an ensemble of earthquake motions is generally below 5%, and the adequacy of the proposed method is confirmed.

Topics & Concepts

CentringDissipationStructural engineeringNonlinear systemVibrationSMA*Range (aeronautics)Deformation (meteorology)Joint (building)Earthquake resistanceDisplacement (psychology)EngineeringComputer scienceGeologyAcousticsAlgorithmPhysicsPsychotherapistQuantum mechanicsThermodynamicsAerospace engineeringOceanographyPsychologySeismic Performance and AnalysisStructural Engineering and Vibration AnalysisStructural Health Monitoring Techniques