subsurface layer meaning in Chinese
水下层
亚表土层
Examples
- The more mixing that occurs in the estuary , the greater is the landward flow in the subsurface layer
在河口湾出现的混合越强烈,次表层向陆地方向的流量就越大。 - All spirit ' s cameras could see was volcanic rock and wind - blown dust in every direction , even in the subsurface layers inside craters
“勇气号”的照相机所能拍摄到的只有火山岩,及被风扬起,遍布四方? ?就连弹坑下方也不能幸免? ?的沙尘。 - The stratification is very obvious in the vertical profiles of chlorophyll and dissolved oxygen , with high content in the subsurface layer when thermocline exists
在温跃层存在季节,黄海冷水团水域的叶绿素和溶解氧含量出现次表层最大值现象。 - Oxygen atoms in the air are known to actively react with the fresh gaas . it was observed that the ga - o bond is stronger than that of as - o and that ga atoms preferentially migrate towards the surface leaving vacancies behind in the subsurface region . this behavior can convert the subsurface layer into an as - enriched one
本文分析了硫钝化后源漏饱和电流减小的原因,认为gaas表面极易被空气中的氧原子氧化,由于ga - o键比as - o键结合的更紧, ga原子优先向表面移动,这导致亚表面层成为富as层。 - Owing to the interfacial cracking which occurs under higher applied load conditions , the composite with high content of tib _ 2 phase exhibited a transition from mild wear to severe wear over the applied load range from 10 n to 80 n . under moderate applied load , increasing the sliding speed caused a decrease in wear rate and friction coefficient of the in - situ composites because the formation of a protective oxide film occurred on the sliding surface and the hardness of the subsurface layer was maintained due to reinforcement of tib2 nanoparticles in the cu matrix
随着载荷的增加, cu -纳米tib2原位复合材料的磨损率和摩擦系数增加;由于在较高载荷下发生表面开裂,高含量的tib2相增强原位复合材料发生了由轻度磨损向严重磨损形式的转化。在中等载荷下由于表面保护性氧化膜的形成和基体中纳米tib2相的存在使复合材料具有良好的抗软化能力, cu -纳米tib2原位复合材料的磨损率和摩擦系数随着滑动速度的增加而下降。