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A discontinuous cantilever beam analogy for quantifying higher mode demands in stacked rocking cores

Navid Rahgozar, Navid Rahgozar, Nima Rahgozar, Nima Rahgozar, Nooshin Rahgozar, Nooshin Rahgozar

2021The Structural Design of Tall and Special Buildings21 citationsDOI

Abstract

Summary Stacked rocking core (SRC) combinations are innovative sustainable structural assemblies that mitigate seismic demands through uplift at the hinge joints and direct damage to replaceable fuses. The stacked segments curtail substantially higher mode effects by the relative motions between multilevel cores. Currently, few research studies have quantified the behavior of SRCs under earthquake shaking. This paper presents a novel closed‐form solution for quantifying the higher mode demands of stacked braced frames subjected to seismic excitation. The mathematical formulae for modal analysis are derived using the analogy of discontinuous cantilever beam and Euler–Bernoulli equation. The proposed equations provide a method for rapid analysis and preliminary design of low‐ to mid‐rise SRCs. A parametric study is carried out to investigate the influences of rotational restraint of segments and the location of the rocking joints. Results verified by time response analysis indicate the validity and accuracy of the suggested formulae.

Topics & Concepts

CantileverStructural engineeringParametric statisticsHingeBeam (structure)ModalAnalogyModal analysisSeismic analysisMode (computer interface)Core (optical fiber)Euler's formulaComputer scienceEngineeringMathematicsMathematical analysisMaterials scienceFinite element methodStatisticsTelecommunicationsOperating systemLinguisticsPolymer chemistryPhilosophySeismic Performance and AnalysisStructural Engineering and Vibration AnalysisMasonry and Concrete Structural Analysis
A discontinuous cantilever beam analogy for quantifying higher mode demands in stacked rocking cores | Litcius