马念杰, 马骥, 赵志强, 等. X型共轭剪切破裂-地震产生的力学机理及其演化规律[J]. 煤炭学报, 2019, (6). DOI: 10.13225/j.cnki.jccs.2019.0125
引用本文: 马念杰, 马骥, 赵志强, 等. X型共轭剪切破裂-地震产生的力学机理及其演化规律[J]. 煤炭学报, 2019, (6). DOI: 10.13225/j.cnki.jccs.2019.0125
MA Nianjie, MA Ji, ZHAO Zhiqiang, et al. Mechanical mechanism and evolution of X-shaped conjugate shear fractures-seism[J]. Journal of China Coal Society, 2019, (6). DOI: 10.13225/j.cnki.jccs.2019.0125
Citation: MA Nianjie, MA Ji, ZHAO Zhiqiang, et al. Mechanical mechanism and evolution of X-shaped conjugate shear fractures-seism[J]. Journal of China Coal Society, 2019, (6). DOI: 10.13225/j.cnki.jccs.2019.0125

X型共轭剪切破裂-地震产生的力学机理及其演化规律

Mechanical mechanism and evolution of X-shaped conjugate shear fractures-seism

  • 摘要: 地震的发生是一个极为复杂且高度非线性的物理过程,基于乔建永、马念杰、马骥等提出的X型共轭剪切破裂-地震复合模型,进一步研究了共轭剪切破裂-地震发生的力学机理,阐明了共轭剪切破裂-地震发生及其演化的物理过程,从软弱异性体周围岩体应力、破坏形态与地震能量变化的角度出发,发现了共轭剪切破裂-地震具有“仿蝶存亡”规律,获得了共轭剪切破裂-地震生成的必要条件。研究结果表明:由于构造应力显现区域应力环境的剧烈变化,地壳岩体中会形成以软弱异性体为中心的性态极不稳定的蝶形破坏区,它的扩展最终会形成显性或隐性的共轭剪切破裂;蝶形破坏区蝶叶每次扩展释放的能量会在一定范围内引发地震,即地震是触发事件动载作用下蝶形破坏瞬态扩展所释放弹性能的非线性动力现象;共轭剪切破裂在不同应力状态下经历了圆形和椭圆形破坏、蝶形渐进破坏与蝶形剧烈破坏的孕育期、生长期与剧变期;依据地震里氏震级的强弱,在共轭剪切破裂动态生成过程中地震活动存在着弱震期,中强震期与强震期的“仿蝶存亡”特点;共轭剪切破裂—地震发生的必要条件主要有地壳中的软弱异性体存在条件,构造应力剧烈变化条件,软弱异性体及其周围岩体强度条件以及地震发生的应力触发条件。

     

    Abstract: The occurrence of earthquake was an extremely complex and highly nonlinear physical process. Based on the X-shaped conjugate shear fracture-seismic composite model proposed by QIAO Jianyong,MA Nianjie and MA Ji,etc, this paper further studied the mechanical mechanism of conjugate shear fracture-seism, and clarified the physical process of conjugate shear fracture-seismic occurrence and its evolution. From the perspective of the surrounding rock stress,failure form around the soft anisotropic body and seismic energy,it was found that the conjugate shear fracture- seism had the law of “Imitation of butterfly survival”. The necessary conditions for occurrence of the conjugate shear fracture-seism were obtained. The research result indicated that there was a butterfly failure zone with extremely unsta- ble behavior in rock mass around the underground soft anisotropic body due to the dramatic change of regional stress environment in which tectonic stress appeared. The expansion of the butterfly-shaped failure zone could eventually form the dominant or recessive X-type conjugate shear fracture. The energy released by each expansion of the butterfly leaf in the butterfly-shaped failure zone could cause an earthquake within a certain range. Therefore,seismicity was the nonlinear dynamic phenomenon of the elastic energy released by the transient expansion of the butterfly-shaped dam- age under dynamic load of triggered event. Conjugate shear fracture was divided into the periods of initiation,growth, upheaval of circular and elliptical failure,butterfly progressive failure and butterfly severe failure under different stress states. According to the strength of Richter magnitude of earthquakes,seismic activities existed weak earthquake peri- od,medium-strong earthquake period and strong earthquake period during the dynamic generation of conjugate shear fracture. The necessary conditions for the occurrence of an earthquake were summarized as follows:the presence of soft anisotropic bodies, the drastic changes of tectonic stress, the strength of those rocks surrounding soft anisotropic bodies,and the stress-triggering condition of an earthquake.

     

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