Litcius/Paper detail

Towards understanding, estimating and mitigating higher-mode effects for more resilient tall buildings

Constantin Christopoulos, Chiyun Zhong

2022Resilient Cities and Structures34 citationsDOIOpen Access PDF

Abstract

Rapid urbanization has resulted in increased demand for tall buildings in many large and medium-sized cities around the world. Current code-based standards for seismic design are primarily aimed at minimizing life-safety risks under major earthquakes. While reinforced concrete (RC) high-rise buildings designed following current code requirements are expected to achieve collapse-prevention, the contribution of higher modes of vibrations to the dynamic response of these structures can produce seismic demands significantly larger than those obtained from prescriptive code-based procedures, causing unexpectedly higher structural and non-structural damage to these buildings. These imply considerable costs associated with the loss of residences and business operations as well as the post-earthquake recovery of cities. This paper presents a concise review of the current state-of-the-art and state of research pertaining to the understanding, estimation and mitigation of higher-mode effects on the seismic response of tall and slender RC structures. The paper is organized into four main foci: (1) analytical studies on understanding and quantifying higher-mode effects, (2) available experimental work on this topic, (3) advances in code practices in accounting for higher-mode effects in seismic design of RC tall buildings, and (4) recent developments in innovative systems intended to mitigate higher-mode effects in RC tall buildings. The paper concludes by briefly summarizing future challenges facing the construction of earthquake-resilient RC tall buildings that are essential in building resilient cities of the future.

Topics & Concepts

Mode (computer interface)Architectural engineeringWork (physics)EngineeringUrbanizationSeismic analysisCode (set theory)Civil engineeringCurrent (fluid)Computer scienceSet (abstract data type)Electrical engineeringMechanical engineeringEconomic growthOperating systemEconomicsProgramming languageSeismic Performance and AnalysisSeismic and Structural Analysis of Tall BuildingsMasonry and Concrete Structural Analysis