文章摘要
何一纯, 王兰普, 侯奇东, 张顺利, 孔张宇.大型地下厂房含蚀变带围岩变形特征与机理分析Journal of Water Resources and Water Engineering[J].,2021,32(4):206-213
大型地下厂房含蚀变带围岩变形特征与机理分析
Deformation features and mechanism analysis of the surrounding rock with alteration zone of a large underground powerhouse
  
DOI:10.11705/j.issn.1672-643X.2021.04.28
中文关键词: 地下厂房  蚀变带  围岩变形  大规模开挖  中等地应力
英文关键词: underground powerhouse  alteration zone  surrounding rock deformation  large-scale excavation  medium in situ stress
基金项目:
Author NameAffiliation
HE Yichun1, WANG Lanpu1, HOU Qidong2, ZHANG Shunli2, KONG Zhangyu1 (1.河北丰宁抽水蓄能有限公司 河北 承德 068350 2.中国电建集团 成都勘测设计研究院有限公司 四川 成都 610072) 
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中文摘要:
      大型地下厂房的洞室开挖规模较大,围岩稳定问题突出;而当厂区蚀变带发育时,围岩发生大变形的风险可能骤增。依托丰宁电站主厂房洞室开挖工程,结合地质资料和监测数据,对大型地下厂房含蚀变带围岩的变形特征与机理进行了分析。结果表明:开挖边墙变形普遍较大,多个监测值超过50 mm;开挖规模较大的区域变形更大;受蚀变影响的围岩时效变形明显。分析认为丰宁电站主厂房围岩变形受到蚀变带、大规模开挖和地应力的综合影响:沿结构面广泛分布的蚀变带削弱了岩体质量,成为大变形的内因;大规模开挖造成围岩卸荷损伤,创造了大变形的条件;而与厂房纵轴线大角度相交的地应力大主应力则放大了前两者的不利影响,最终导致大变形发生。
英文摘要:
      The excavation of large underground powerhouses is of great scale, and stability problems of the surrounding rock are always involved during the excavation. When a developed alteration zone is close to the excavation site, the large deformation risk of the surrounding rock could increase sharply. Here, the main powerhouse excavation project of Fengning Hydropower Station was taken as the research object, the deformation features and mechanism of its surrounding rock with an alteration zone were analyzed based on the geological conditions and monitoring data. The monitoring results show that the deformation of side walls was generally large, with multiple monitoring values exceeding 50 mm. Larger excavation area induced greater deformation. The time-dependent deformation of the surrounding rock was obvious under the influence of the alteration zone. The analysis indicates that the surrounding rock deformation in Fengning main powerhouse was affected by the alteration zone, large-scale excavation and in situ stress, because the alteration zone, which is widely distributed along the rock joints and faults, weakened the rock mass quality and became the internal cause of large deformations. Furthermore, the unloading damage of the surrounding rock caused by large-scale excavation created the condition for large deformation and the major principal stress of in situ stress intersecting with the longitudinal powerhouse axis at a large angle magnified the adverse effect of the former two factors, which eventually caused the large deformation.
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