动力短缺已经使多个国家的采矿和熔炼中断。
Power shortages have disrupted mining and smelting in several countries.
煤矿生产中存在着大量的动力扰动,常导致采矿巷道和采场围岩局部失稳,诱发冲击矿压发生。
Many dynamic disturbances often lead to local instability of roadway surrounding rock and mining workplace and result in rock burst in coal mining.
伊顿的流体动力产品应用广泛,包括土方机械、农业、建筑、航空、采矿、林业、公共设施和物料搬运。
Eaton's fluid power products are found in a broad spectrum of applications including earthmoving, agriculture, construction, aerospace, mining, forestry, utility and material handling.
蒸汽机作为动力,从纺织业开始,逐渐被广泛应用于采矿、冶金、磨面、制造和交通运输等各行各业。
The steam engine as the driving force, from the textile industry began to gradually been widely used in mining, metallurgy, grinding, manufacturing and transportation and other industries.
深海采矿扬矿管上的横向液动力由两部分组成:海流作用力、波浪作用力。
Horizontal hydrodynamics of deep sea mining lifting pipe consists of two parts: the forces caused by current and wave.
它对于采矿工程稳定性评价、矿井动力现象预测预防等方面都有重要意义。
The analysis result is important to evaluate the mine engineering stability and to predict the mine induced dynamic phenomenon.
根据中试采矿模拟实验方案,运用机电一体化技术研制了一套作业模拟及动力学测试实验系统,并进行了系统软件和硬件设计。
A set of task simulation and kinetic measurement experimental system were built according to experimental scheme by use of mechatronics. Hardware and software of the system were designed.
对深海采矿系统进行动力学分析,可以为系统的研制和开采(试验)作业提供理论依据和技术参考。
The dynamic analysis for the deep- ocean mining system can provide theoretical explanation and technical reference for the design and operation of actual mining system.
研究了分段充填采矿法的动力学原理。
The dynamics principle of the sublevel mining method was investigated.
利用动力学分析软件ADAMS建立采矿船及集矿车船上吊运过程的虚拟样机模型,对集矿车的船上吊运过程进行模拟与动力学仿真。
Virtual prototype of ship and process of transporting the collector were constructed in ADAMS and the process of transporting it were simulated.
溶浸采矿;反应动力学;孔隙结构演化;
Solution mining; Kinetics of reaction; Evolution of pore structure;
采矿系统的布放回收作业必须克服海洋环境的影响,因此对布放回收作业受海洋载荷影响研究以及海洋载荷(尤其是水动力)的计算是非常有必要的。
The deployment and retrieval of mining system are significantly affected by ocean environment, thus it is essential to consider the ocean load on mining system and calculate the hydraulic forces.
采矿系统的布放回收作业必须克服海洋环境的影响,因此对布放回收作业受海洋载荷影响研究以及海洋载荷(尤其是水动力)的计算是非常有必要的。
The deployment and retrieval of mining system are significantly affected by ocean environment, thus it is essential to consider the ocean load on mining system and calculate the hydraulic forces.
应用推荐