而流域的自然景观和地貌单元的完整性,具有大流域的分布规律。
The natural landscape and the integrity of the geomorphic units of the basin have the same distribution rules as those of other large basin.
通过对独山子地区各种地貌单元类型的实测和考察,分析讨论了其新构造运动的特征及相互关系。
This paper analysed and discussed both the characteristics of the notes-tonic movement and its correlations along Dushanzi area by field investigation on the geomorphic elemental type.
龙门山是青藏高原东缘边界山脉,具有青藏高原地貌、龙门山高山地貌和山前冲积平原三个一级地貌单元。
The large-scale morphology of the eastern margin of the Tibetan plateau can be divided into three zones, the Tibetan Plateau, Longmenshan and Sichuan Basin.
运营多年的地铁隧道,由于横跨不同的地貌单元和受动荷载的影响,不均匀沉降已威胁到地铁列车的行驶安全。
Having been worked for many years, the asymmetric subsidence has already threatened the safe run of underground trains because it traverses different relief cell and is affected by dynamic load.
哈尔滨地区,一般属良好或较良好的工程地质区,但是由于各种原因在不同地貌单元上分布着黄土状土,也称类黄土。
The engineering geologic property in the region of Harbin is commonly well, but for many reasons there is loess-like soil distributing on different physiognomy elements.
黄土高原是我国乃至全世界的一个十分独特的地貌单元,对其复杂多样的地貌形态的研究和可视化表达一直备受关注。
Loess Plateau is a kind of peculiar relief unit in China and in the world, attracting strong attentions for its various and complex morphologies.
凹陷发育的不同级次横向构造调节带对各个构造-地貌单元物源体系的形成、沉积体系与砂体的展布有重要控制作用。
Different orders of the transverse transfer faults control the provenance systems 'development and the distribution of the depositional systems and the sand.
某电厂位于长江南岸的长江大堤堤内圩区。属长江河漫滩地貌单元。厂区分布第四系冲积物及牛轭湖相沉积层, 基岩为第三系红层。
Some Power Plant was situated in dike area of the south bank of a Yangtse River, belong in valley flat geomorphic unit.
通过分析研究各县区不同地貌单元面积,在假定县内道路分布均一的情况下,计算了各县区侵蚀参数和区域道路开挖边坡的年侵蚀量。
Based on the composition of landform of each country, and an assuming of that the distribution of highway is similar, the erosion parameter and cutting slope erosion are analyzed.
本文以地貌单元、地层时代和地层组合作为控制土体工程地质条件的基本要素,并从八个方面实例论证了这三大要素对各类土体工程地质条件的宏观控制作用。
This paper deals with three factors, i. e. topographic unit, stratigraphic age, and strata association as the most important elements for controlling the soil engineering geological conditions.
本文以地貌单元、地层时代和地层组合作为控制土体工程地质条件的基本要素,并从八个方面实例论证了这三大要素对各类土体工程地质条件的宏观控制作用。
This paper deals with three factors, i. e. topographic unit, stratigraphic age, and strata association as the most important elements for controlling the soil engineering geological conditions.
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