泥石流侵蚀

  • 网络debris flow erosion
泥石流侵蚀泥石流侵蚀
  1. 结果表明,研究区泥石流侵蚀强度远大于土壤侵蚀强度;

    Results indicate that , in the study area , the intensity of debris flow erosion is far greater than that of the soil erosion ;

  2. 最后综合上述内容对从泥石流输砂量对水位工程的影响、泥石流侵蚀及堆积作用对道路的影响两个方面分析泥石流的工程效应。

    Finally , the above contents of the volume of sand lost from the debris flow on the water works , the role of debris flow erosion and accumulation of the effects of road debris flow analysis of two aspects of the project effects .

  3. 泥石流土体侵蚀与始发雨量的相关性研究

    Study on Relationship Between Erosion of Debris Flows and Critical Rain Quantity

  4. 成昆线红层地区泥石流沟侵蚀程度量化分析

    Quantitative Analysis on Erosion Degree of Debris Flow Valley in Red Rock Area along Chengdu & Kunming Railway

  5. 对秩统计参数和次序统计参数比较结果表明:在表征泥石流沟侵蚀程度方面,侵蚀系数优于地面割裂度。

    Results show that EC is more advantageous than the LDV in representing the erosion degree of the debris flow valley .

  6. 泥石流坝后侵蚀坑内部边坡规律实验研究

    Experimental study on the interior slope of scour pit below debris flow sabo dams

  7. 泥石流坝后侵蚀坑纵剖面形态及最大深度实验研究

    Experimental Study of the Shape and the Maximum Depth of Scour Pit Below Debris Flow Sabo Dam

  8. 矿区地质灾害既普遍又严重,主要类型有:地震、活动断裂、滑坡、地面裂陷、泥石流及土壤侵蚀等。

    Main disasters in the region include earthquake , active faulting , landslide , fissure and sinking , debris flow and soil erosion .