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高峰, 邵焱, 熊信, 周科平, 曹善鹏. 不同微波照射方式下岩石试样的内外升温特征试验[J]. 岩土工程学报, 2020, 42(4): 650-657. DOI: 10.11779/CJGE202004007
引用本文: 高峰, 邵焱, 熊信, 周科平, 曹善鹏. 不同微波照射方式下岩石试样的内外升温特征试验[J]. 岩土工程学报, 2020, 42(4): 650-657. DOI: 10.11779/CJGE202004007
GAO Feng, SHAO Yan, XIONG Xin, ZHOU Ke-ping, CAO Shan-peng. Rising characteristics of internal and external temperatures of rock specimens under different microwave irradiation modes[J]. Chinese Journal of Geotechnical Engineering, 2020, 42(4): 650-657. DOI: 10.11779/CJGE202004007
Citation: GAO Feng, SHAO Yan, XIONG Xin, ZHOU Ke-ping, CAO Shan-peng. Rising characteristics of internal and external temperatures of rock specimens under different microwave irradiation modes[J]. Chinese Journal of Geotechnical Engineering, 2020, 42(4): 650-657. DOI: 10.11779/CJGE202004007

不同微波照射方式下岩石试样的内外升温特征试验

Rising characteristics of internal and external temperatures of rock specimens under different microwave irradiation modes

  • 摘要: 微波辅助机械破岩是实现硬岩非爆破连续开采的重要手段,开展微波照射方式对研究岩石的温度响应以及破坏机制具有重要的理论和实际意义。对花岗岩试样进行不同功率和时间的微波单次与循环加热、单侧与双侧加热试验,并开展试样加热前后的P波波速测试。结果表明,试样反向功率整体上随时间降低,且降低程度随功率增大而增大。试样内部温度高于表面温度,其变化具有明显的阶段特征,且在升温阶段存在“拐点”,表面温度从中心以辐射状向边缘逐渐降低。微波加热使试样内部产生热应力并导致裂纹产生和扩展,降低P波波速。采用单次、单侧、高功率和短时间的微波照射方式对试样进行加热,可以使试样温度升高更为显著。

     

    Abstract: Microwave-assisted mechanical rock breaking is an important means to achieve non-blasting continuous mining of hard rock. The microwave irradiation is of important theoretical and practical significances for studying the temperature response and failure mechanism of rock. For the granite samples subjected to microwave heating, the unilateral and double-sided heating tests with different power and time as well as the P-wave velocity tests before and after heating of the samples are carried out. The results show that the reverse power of the samples decreases with time as a whole, and the degree of decrease increases with the increase of power. The internal temperature of the samples is higher than the surface temperature, and the change has obvious phase characteristics, and there is an "inflection point" in the temperature rising phase, and the surface temperature gradually decreases from the center to the edge in the radial direction. Microwave heating causes thermal stress inside the samples and generation and propagation of cracks, reducing the P-wave velocity. Heating the samples with a single, single-sided, high-power and short-time microwave irradiation method can increase the temperature of the samples more significantly.

     

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