Experimental Fragility Analysis of Pressurized Fire Sprinkler Piping Systems

Jenkins Craig; Soroushian Siavash; Rahmanishamsi Esmaeel; Maragakis E. Manos

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Experimental Fragility Analysis of Pressurized Fire Sprinkler Piping Systems

机译：加压消防洒水管道系统的实验易损性分析

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The seismic performance of nonstructural components, including pressurized fire sprinkler systems, plays a significant role during and after an earthquake. A series of full-scale system-level experiments was conducted at the University of Nevada, Reno Network for Earthquake Engineering Simulation site in order to evaluate the seismic performance of integrated ceiling-piping-partition systems. In this study, the performance of fire sprinkler piping systems were evaluated through several design variables. Processing of experimental data led to the calculation of acceleration amplification factors and development of fragility functions. Results show that 50 mm (2.0 in) diameter pipes have the greatest failure probability when evaluating pipe joint rotations.

机译：非结构组件的抗震性能，包括加压喷水灭火系统，在地震发生期间和之后均起着重要作用。在内华达大学里诺地震工程仿真网络网络上进行了一系列全面的系统级实验，以评估集成式天花板管道系统的抗震性能。在这项研究中，通过几个设计变量对消防喷淋管道系统的性能进行了评估。实验数据的处理导致了加速度放大因子的计算和脆弱性函数的发展。结果表明，在评估管接头旋转时，直径为50毫米（2.0英寸）的管道具有最大的故障概率。

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来源
《Journal of Earthquake Engineering》 |2017年第2期|62-86|共25页
作者
Jenkins Craig; Soroushian Siavash; Rahmanishamsi Esmaeel; Maragakis E. Manos;
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作者单位

Univ Nevada, Dept Civil & Environm Engn, 1664 N Virginia St, Reno, NV 89557 USA;

Arup, Adv Technol & Res, San Francisco, CA USA;

Univ Nevada, Dept Civil & Environm Engn, 1664 N Virginia St, Reno, NV 89557 USA;

Univ Nevada, Dept Civil & Environm Engn, 1664 N Virginia St, Reno, NV 89557 USA;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Nonstructural Systems; Fire Sprinkler Piping System; Experimental Study; Fragility Analysis; Shake Table Simulation;

机译：非结构系统;消防喷淋管道系统;实验研究;脆弱性分析;振动台模拟;

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1. Experimental Seismic Fragility of Pressurized Fire Suppression Sprinkler Piping Joints [J] . Yuan Tian, Andre Filiatrault, Gilberto Mosqueda Earthquake spectra . 2014,第4期

机译：加压灭火洒水管道接头的实验地震易损性
2. Seismic Response of Pressurized Fire Sprinkler Piping Systems I: Experimental Study [J] . Tian Yuan, Filiatrault Andre, Mosqueda Gilberto Journal of Earthquake Engineering . 2015,第3a4期

机译：加压消防洒水管道系统的地震响应I：实验研究
3. Seismic Response of Pressurized Fire Sprinkler Piping Systems II: Numerical Study [J] . Tian Yuan, Filiatrault Andre, Mosqueda Gilberto Journal of Earthquake Engineering . 2015,第3a4期

机译：加压消防洒水管道系统的地震反应II：数值研究
4. Experimental Seismic Fragility of Steel Studded Gypsum Partition Walls and Fire Sprinkler Piping Subsystems [C] . Andre Filiatrault, Gilberto Mosqueda, Rodrigo Retamales, Combined structures congress;North American steel construction conference;NASCC . 2011

机译：钢钉石膏隔墙和消防喷淋管道子系统的实验易碎性
5. Analytical Seismic Fragility of Fire Sprinkler Piping Systems. [D] . Soroushian, Siavash. 2013

机译：消防喷水灭火系统的分析易碎性。
6. Experimental and Numerical Analysis of the Cooling Performance of Water Spraying Systems during a Fire [O] . YaoHan Chen, ChungHwei Su, JoMing Tseng, -1

机译：火灾中喷水系统冷却性能的实验与数值分析
7. Evaluation of Seismic Performance of 2-Story Fire Protection Sprinkler Piping System [O] . Jun-Tai Jeon, Woo-Young Jung, Bu-Seog Ju 2014

机译：2层防火喷水管管道系统的抗震性能评价
8. Experimental Seismic Study of Pressurized Fire Sprinkler Piping Subsystems. [R] . Tian, Y., Filiatrault, A., Mosqueda, G. 2013

机译：加压消防喷水管道子系统的实验地震研究。

Experimental Fragility Analysis of Pressurized Fire Sprinkler Piping Systems

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