Definition and Validation of Fast Design Procedures for Seismic Isolation Systems

IF 1.9 Q3 ENGINEERING, MECHANICAL Vibration Pub Date : 2022-05-03 DOI:10.3390/vibration5020017

M. Furinghetti

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引用次数: 13

Abstract

The research on traditional and innovative seismic isolation techniques has grown significantly in recent years, thanks to both experimental and numerical campaigns. As a consequence, practitioners have also started to apply such techniques in real applications, and nowadays, seismic isolation is widespread in regions characterized by a high level of seismic hazard. The present work aims at providing practitioners with very simple procedures for the first design of the isolation devices of a building, according to the most common typologies of isolators: Rubber Bearings, Lead Rubber Bearings and Curved Surface Sliders. Such Fast Design Procedures are based on simplified approaches, and the mechanical properties of the implemented devices can be obtained by assuming a performance point of the overall structural system, namely effective period and equivalent viscous damping. Furthermore, some important parameters are defined, according to the outcomes of a statistical analysis of the test database of the EUCENTRE Foundation in Italy. Finally, results of a validation study have been provided by analyzing a case-study structure through a Multi Degree of Freedom oscillator and a full 3D Finite Element model.

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隔震系统快速设计程序的定义和验证

近年来，由于实验和数值活动，对传统和创新隔震技术的研究显著增长。因此，从业者也开始在实际应用中应用这些技术，如今，地震隔离在地震危险性高的地区非常普遍。目前的工作旨在为从业者提供非常简单的程序，根据最常见的隔离器类型：橡胶轴承、铅橡胶轴承和曲面滑块，首次设计建筑物的隔离装置。这种快速设计程序基于简化的方法，并且可以通过假设整个结构系统的性能点，即有效周期和等效粘性阻尼，来获得所实施装置的机械性能。此外，根据意大利EUCENTRE基金会测试数据库的统计分析结果，定义了一些重要参数。最后，通过对多自由度振荡器和全三维有限元模型的实例分析，给出了验证研究的结果。

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