分析表明,沙尘暴活动的搬运动力和沙尘来源区物质所处状态是沙尘暴活动与否的决定因素。
The analysis indicates that the transporting force of sand-storm activity and matter in sand dust source area are the decisive factors of sand storm activity.
物源分析在确定沉积物物源位置和性质及沉积物搬运路径,甚至整个盆地的沉积作用和构造演化等方面意义重大。
Source analysis have an important significance to determine sediment source location, character and path of transportation, even entire basin's deposition and structural evolution aspect.
分析了土壤侵蚀中的侵蚀、搬运、堆积的层次结构及所表现的空间尺度效应的形式、产生的机制和原因。
The multi-level structure of erosion, transportation and accumulation in a slope system and its space scale effect are very important for the soil erosion quantity evaluation.
企业生产物流中物料的搬运方式一般由所搬运的物料的功能、性质、搬运量等进行选择,仅局限于定性分析。
By mathematical model, the paper analyzes quantitatively the materials handling way in production logistics and with an example, it proves that it is feasible to analyze the way quantitatively.
从原材料、挤压工艺、模具和搬运等几个方面详细分析了影响型材表面质量的因素,并提出了提高铝型材表面质量的一些方法。
The factors which affect profile's surface quality are analysed from the aspects of raw material, extrusion process? Dies and handling.
详细介绍了WC40型支架搬运车的主要技术参数及结构特点,并与进口同类设备对比分析,说明其技术创新点和通用性。
The main specifications and structures of WC40 shield carrier are described, and by comparison with the imported equivalents, its technical innovation and versatility are detailed.
分析结果表明,搬运机工作时,预制场存梁台座和制梁台座桩基础仍能安全工作。
It shows that the foundation of the casting yard is safe when the carrier works.
对车架进行静力分析和模态分析,分析其是否满足强度要求,判定搬运车是否会发生共振。
Inspect the strength of the frame through static analysis and modal analysis, then check out whether syntony would happen.
根据搬运机器人的性能要求,设计出它的机械结构,然后对其进行动力学分析,计算出实现给定运动所需要的驱动力和力矩。
The paper mainly studies the parallel mechanism, whole scheme design of the robot, kinematics solution of the parallel mechanism and so on, aiming at the hybrid carrying robot.
根据搬运机器人的性能要求,设计出它的机械结构,然后对其进行动力学分析,计算出实现给定运动所需要的驱动力和力矩。
The paper mainly studies the parallel mechanism, whole scheme design of the robot, kinematics solution of the parallel mechanism and so on, aiming at the hybrid carrying robot.
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