Dynamic Response Analysis of the Floor Structure under Random Crowd Excitation

IF 1.2 4区工程技术 Q3 ACOUSTICS

Shock and Vibration Pub Date : 2024-01-10 DOI:10.1155/2024/1451839

Dong Cao, Zuanfeng Pan, Yu Fang

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引用次数: 0

Abstract

The popularity of new structural systems and prestressing technology has led to the widespread use of the large-space floor structures in large buildings such as high-speed rail terminals, conference centers, and sports stadiums. The reduction of nonessential load-bearing elements and the increase in span of the structure result in a reduction in the natural frequency and damping ratio of the floor structure, while the floor is a crowded area with disorderly flow between people, which may lead to human-induced vibration problems. In order to assess the dynamic performance of the large-span floor structure under crowd load, the random crowd-floor vertical interaction equation is derived, and the correctness of the equation is verified by comparing it with the test. For the stochastic nature of walking crowds, a formulation modeling method for random crowd is proposed, including pedestrian-dynamics parameters, formulation model, and response parameters. The model is characterized by considering inter- and intrasubject variability and reflects the vertical interaction between pedestrians and the floor system. According to the random crowd-floor dynamic equation, the variation of modal parameters and acceleration response of the floor during random crowd walking are also analyzed. The research in this paper will help in analyzing the comfort of large-span floor structures under pedestrian excitation and better meet the needs of the development of lightweight large-span structures.

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随机人群冲击下楼板结构的动态响应分析

随着新型结构体系和预应力技术的普及，大空间楼层结构在高铁终点站、会议中心和体育场馆等大型建筑中得到了广泛应用。由于非必要承重构件的减少和结构跨度的增大，导致楼板结构的固有频率和阻尼比降低，而楼板又是人流密集区，人流之间流动无序，可能导致人为振动问题。为了评估大跨度楼板结构在人群荷载作用下的动力性能，推导了随机人群-楼板垂直相互作用方程，并通过与试验对比验证了方程的正确性。针对步行人群的随机性，提出了随机人群的配方建模方法，包括行人动力学参数、配方模型和响应参数。该模型的特点是考虑了主体间和主体内的可变性，并反映了行人与地板系统之间的垂直交互作用。根据随机人群-地板动态方程，还分析了随机人群行走时地板模态参数和加速度响应的变化。本文的研究将有助于分析大跨度楼板结构在行人激励下的舒适性，更好地满足轻质大跨度结构的发展需求。

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来源期刊

Shock and Vibration 物理-工程：机械

CiteScore

3.40

自引率

6.20%

发文量

384

审稿时长

3 months

期刊介绍： Shock and Vibration publishes papers on all aspects of shock and vibration, especially in relation to civil, mechanical and aerospace engineering applications, as well as transport, materials and geoscience. Papers may be theoretical or experimental, and either fundamental or highly applied.