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孔洋, 阮怀宁, 汪璋淳. 玄武岩脆性类岩石相似模型材料比选与力学特性测试研究[J]. 岩土工程学报, 2023, 45(11): 2308-2318. DOI: 10.11779/CJGE20220984
引用本文: 孔洋, 阮怀宁, 汪璋淳. 玄武岩脆性类岩石相似模型材料比选与力学特性测试研究[J]. 岩土工程学报, 2023, 45(11): 2308-2318. DOI: 10.11779/CJGE20220984
KONG Yang, RUAN Huaining, WANG Zhangchun. Selection and mechanical properties testy of similar brittle rock-like model materials of basalt[J]. Chinese Journal of Geotechnical Engineering, 2023, 45(11): 2308-2318. DOI: 10.11779/CJGE20220984
Citation: KONG Yang, RUAN Huaining, WANG Zhangchun. Selection and mechanical properties testy of similar brittle rock-like model materials of basalt[J]. Chinese Journal of Geotechnical Engineering, 2023, 45(11): 2308-2318. DOI: 10.11779/CJGE20220984

玄武岩脆性类岩石相似模型材料比选与力学特性测试研究

Selection and mechanical properties testy of similar brittle rock-like model materials of basalt

  • 摘要: 工程开挖区特殊断续柱状节理玄武岩赋存环境往往地质条件复杂、地应力水平较高,玄武岩块体单轴抗压强度高、离散性强,失效破坏脆性张拉劈裂特征显著,原生隐裂隙对强度和变形影响明显。以硬脆性玄武岩为研究对象,通过制备5类质量比模型材料试样,基于单轴压缩试验、巴西劈裂试验与声发射测试等技术手段,在相似比原则的基础上,在应力-应变曲线形式、试样破坏方式、压拉比(脆性指标)与物理力学参数等方面比选了可模拟柱状节理玄武岩岩块力学响应的脆性类岩石相似模型材料。研究成果可为断续柱状节理玄武岩物理模型试验开展各向异性力学响应、损伤演化特征与渗流-应力耦合特性等研究提供技术与材料支撑。

     

    Abstract: The occurrence environment of special discontinuous columnar jointed basalt in the engineering excavation area often has complex geological conditions and high in-situ stress levels. The basalt block has high uniaxial compressive strength and strong discreteness. Its brittle tensile splitting failure characteristics are obvious. The primary hidden fracture has obvious influences on the strength and deformation of the basalt block. Taking the hard and brittle basalt as the research object, by preparing the model material samples with 5 types of mass ratios, based on the uniaxial compression tests, Brazilian splitting tests and acoustic emission tests and other technical means, and on the principle of similarity ratio, the brittle rock-like model materials that can be used to simulate the mechanical response of columnar jointed basalt blocks are selected in terms of the form of stress-strain curve, failure mode of samples, compression-tensile ratio (brittleness index) and physical and mechanical parameters. The research results can provide technical and material supports for the researches on the physical model test on the anisotropic mechanical response, damage evolution characteristics and seepage-stress coupling characteristics of discontinuous columnar jointed basalt.

     

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