软土地区科学装置微振动控制研究
引用文献:
王沁平 贾京 杨军. 软土地区科学装置微振动控制研究[J]. 建筑结构,2023,48(01):95-101.
WANG Qinping JIA Jing YANG Jun. Study on micro-vibration control of scientific facility in soft soil area[J]. Building Structure,2023,48(01):95-101.
摘要:鉴于科学装置对振动要求十分苛刻,且不同装置的控制标准也各有不同,需要进行针对性的振动控制设计。简要介绍了适用于科学装置的振动数据处理方法。根据软土地区环境振动的特点,分析了不同振源对科学装置的影响。采用现场实测和计算分析相结合的微振动控制设计方法,结合上海软土地基科学装置的工程经验,探讨了不同因素对控制标准确定的影响,分析了振动测试对微振动控制设计的重要性。将现场实测与计算分析相结合的方法应用于软土地区工程中,并将分析数据与实测数据进行了比较。结果表明,现场实测与计算分析相结合的微振动控制设计方法可以真实反映振动衰减规律,评估振动水平。
关键词:科学装置;微振动;振动控制;软土地基;振动测试;
基金:上海市科学技术委员会课题:新一代大科学装置超大超长空间高精度恒温控制与纳级振动控制关键技术研究(21DZ1203100)。
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[2] 陈霖新.洁净厂房的设计与施工[M].北京:化学工业出版社,2005.
[3] 夏禾.交通环境振动工程[M].北京:科学出版社,2010.
[4] GORDON C.Generic criteria for vibration-sensitive equipment[C]//Proceedings of SPIE-The International Society for Optical Engineering.[S.L.:s.n.],1992,16:71-85.
[5] 贾京,王沁平,杨文卓.软土地区大科学装置微振动控制设计与实践[C]//第28届全国结构工程学术会议论文集(第Ⅱ册).南昌,2019.
[6] 张向东,闫维明,任珉,等.交通环境振动测试中的本底振动分析[J].振动与冲击,2009,28(4):177-179,197,212.
[7] WATTS G R.Traffic-induced ground-borne vibrations in dwellings[J].Transport and Road Research Laboratory,1987,102:1-17.
[8] HASSAN O A B.Train-induced groundborne vibration and noise in buildings[M].Essex:Multi-Science Publishin Co.,Ltd.,2007:74-77.
[9] 高广运,朱林圆,李卫华,等.上海地铁一号线人民广场振动测试与分析[J].地震工程学报,2014,36(3):429-433.
[10] 贾宝印,楼梦麟,宗刚,等.车辆荷载引起地面振动的实测研究[J].振动与冲击,2013,32(4):10-14.
[11] 茅玉泉.交通运输车辆引起的地面振动特性和衰减[J].建筑结构学报,1987,8(1):67-77.
[12] 岳建勇.软土地基精密装置基础微振动控制技术与工程应用[J].建筑科学,2020,36(S1):57-67.
[13] 电子工业防微振工程技术规范:GB 51076—2015[S].北京:中国计划出版社,2015.
[14] 汪洪军,董玉平,肖永亮,等.重力加速度计量实验室微振动控制设计[J].建筑结构,2021,51(S2):594-597.
Study on micro-vibration control of scientific facility in soft soil area
Abstract: In view of the harsh vibration requirements of scientific facility, as well as different control standard for different facility, it is necessary to carry out targeted vibration control design. The vibration data processing methods for scientific facility was briefly introduced. According to the characteristics of environment vibration in soft soil area, the influence of different vibration sources on scientific facility was analyzed. Based on the design method of micro-vibration control which combines field measurement and calculation analysis, combined with the engineering experience of scientific facility in Shanghai soft soil foundation, the influence of different factors on the determination of control standards was discussed, and the importance of vibration test for micro-vibration control design was analyzed. The method which combines field measurement and calculation analysis was applied into projects in soft soil area, and the analysis data was compared with the measured data. The results show that micro-vibration control design method combined with field measurement and calculation analysis can truly reflect the vibration attenuation law and evaluate the vibration level.
Keywords: scientific facility; micro-vibration; vibration control; soft soil foundation; vibration measurement
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