›› 2017, Vol. 38 ›› Issue (7): 2149-2156.doi: 10.16285/j.rsm.2017.07.039

• 测试技术 • 上一篇    

基于固有振动频率的滑移式和坠落式危岩块体稳定性评价模型研究

贾艳昌,谢谟文,昌圣翔,吕夫侠   

  1. 北京科技大学 土木与环境工程学院,北京 100083
  • 收稿日期:2016-09-23 出版日期:2017-07-10 发布日期:2018-06-05
  • 通讯作者: 谢谟文,男,1965年生,教授博士生导师。E-mail: mowenxie@126.com E-mail:791845146@qq.com
  • 作者简介:贾艳昌,男,1986年生,在读博士生,从事岩土灾害监测及其稳定性评价研究
  • 基金资助:

    国家自然科学基金资助项目:基于动力特征参数的边坡危岩块体稳定性监测评价模型研究(No. 41572274)。

A model for evaluation of stability of sliding- and falling-type dangerous rock blocks based on natural vibration frequency

JIA Yan-chang, XIE Mo-wen, CHANG Sheng-xiang, LÜ Fu-xia   

  1. School of Civil and Environmental Engineering, University of Science and Technology of Beijing, Beijing 100083, China
  • Received:2016-09-23 Online:2017-07-10 Published:2018-06-05
  • Supported by:

    This work was supported by the National Natural Science Foundation of China: Study on Monitoring and Evaluation Model of Slope Dangerous Rock Mass Stability Based on Dynamic Characteristic Parameters (41572274).

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摘要: 危岩块体的失稳多表现为突发崩塌破坏,无明显位移特征,因此常规位移监测难以达到监测预警的目的,此外影响危岩块体稳定性重要参数之一的危岩块体与母岩粘结面积难以获得,导致危岩块体稳定性评价困难。本文以危岩块体为研究对象,假设危岩块体均质各向同性,主控结构面为单个平面,系统阻尼比小于1,在振幅范围内的变形为线弹性变形,则可将危岩块体振动模型简化为弹簧振子模型。通过理论推导建立了危岩块体固有振动频率、危岩块体与母岩粘结面积、弹性模量和危岩块体质量之间的关系,再结合极限平衡模型,建立了基于固有振动频率的危岩块体稳定性评价模型。以白河堡水库右岸的危岩块体为试验对象,利用无线振动传感器(微芯方),将采集到的数据采用傅里叶变换等数学方法得到危岩块体固有振动频率,再结合固有振动频率与危岩块体粘结面积、弹性模量、危岩块体质量之间的关系,计算出块体粘结面积,最后基于该模型完成危岩块体稳定性评价。试验验证了基于固有振动频率的危岩块体稳定性评价可行性,相比传统方法更加快捷、准确。

关键词: 危岩块体, 固有振动频率, 傅里叶变换, 稳定性评价

Abstract: Since the instability of dangerous rock mass exhibits as the sudden collapse of destruction, no obvious displacement characteristics can be identified. Thus, the application of conventional displacement monitoring techniques is difficult to achieve the purpose of monitoring and early warning. In addition, the stability of dangerous rock mass is influenced by the bonded area between dangerous rock block and bedrock, which is considered as one of the critical parameters. However, this bonded area is hard to obtain, which makes it difficult to evaluate the stability of the dangerous rock block. In this study, we assume that the rock block is homogeneous and isotropic, the main control structural plane is a single plane, the damping ratio of the system is less than 1 and the deformation is linear elastic deformation within the amplitude range. As a result, the vibration model of the dangerous rock mass can be simplified as a spring oscillator model. Then, the relationships among the natural vibration frequency of dangerous rock mass, the bonding area, the elastic modulus and the quality of dangerous rock mass were established by the theoretical derivation. Considering the limit equilibrium model, a new model based on natural vibration frequency was derived to evaluate the stability of dangerous rock mass. A dangerous rock block on the right bank of Baihebao reservoir was selected as the case study. A wireless vibration sensor (micro core) was fixed on the dangerous rock block to acquire data, which was converted to natural vibration frequency by the Fourier transform and other mathematical methods. Furthermore, the bonded area was determined according to the relationship among natural vibration frequency, rock block bonding area and elastic modulus. Finally, the stability evaluation of dangerous rock mass was completed using the new model. This case study verifies the feasibility of the proposed procedure with a faster rate and more accuracy than traditional methods.

Key words: dangerous rock block, natural vibration frequency, Fourier transform, stability evaluation

中图分类号: 

  • O 319.56

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