Fluid Power Transmission

Three kinds of water hydraulic control valves , which consist of relief valve , directional valve and throttle valve , are designed by the state key laboratory of fluid power transmission and control in Zhejiang University .

浙江大学流体传动及控制国家重点实验室自行设计了三类纯水控制阀：溢流阀、换向阀和节流阀。

The presence and Development of Fluid Power Transmission and Control

流体传动及控制的现状及新发展

Historical progress and prospects of fluid power transmission and control

流体传动与控制技术的历史进展与展望

Some Important Development Trends in Fluid Power Transmission

流体传动几个重要方面的发展

Investigation in design method of improving antidisturbance ability for fluid power transmission system

提高液压传动系统抗干扰能力设计方法的研究

The developments of fluid power transmission and control will be unlimited .

流体传动与控制的发展仍将是无止境的。

Time-domain Response of Fluid Power Transmission and Control System to Periodic Impulses

液压系统对周期性脉动的时域响应

Research Progress on Industrial Computed Tomography and its Application Analysis in Fluid Power Transmission and Control

工业CT研究发展状况及其在流体传动及控制中的应用分析

Water hydraulics technology is one of the top research aspects in fluid power transmission and control .

纯水液压技术是当前流体传动及控制领域的学科前沿研究方向之一。

In this paper , an experimental research on a control flow field in fluid power transmission has been made .

实验研究了流体动力传输中的控制流动场。

State Key Laboratory of Fluid Power Transmission and contro

流体传动及控制国家重点实验室

Summary of fluid power transmission and contral Technology

流体传动及控制技术的评述

Controll ability of ER fluid power transmission

电流变流体动力传输的可控性

Sea water hydraulic , with sea water as the transmission media , is a kind of new green fluid power transmission technology .

海水液压传动技术是以海水作为传动介质的新型绿色液压传动技术。

The historical progress of fluid power transmission and control , the main achievements in 20th century are reviewed and its future is forecasted .

回顾了流体传动与控制技术的历史进程，20世纪的主要成就，并展望了未来的发展前景。

Electro-hydraulic servo control with on / off valves is a simple and efficient means , and a new development direction in fluid power transmission and control .

采用开关阀实现电液伺服控制是一种简便有效的方法，是流体传动控制的一个新方向。

The idea for applying computed tomography technology in fluid power transmission and control was put forward , and its application analysis and prospect were given in the end .

提出了将工业CT技术应用于流体传动与控制中的构想，并进行了初步的应用分析和应用前景展望。

It has become a hot topic at home and abroad that using new functional material to develop driving and controlling components with high performance in the field of fluid power transmission and control .

流体传动与控制领域中，利用新型功能材料研制高性能的驱动与控制元件，一直是国内外学者的研究热点。

It is one of the top subjects in the field of fluid power transmission and control , and also an advanced technology involving many disciplines , therefore it has a bright commercial future .

纯水液压传动技术涉及多个学科，是流体传动与控制领域的前沿课题，具有广阔的市场前景。

Using seawater as the medium of fluid power transmission is the hot-spot in the field of the deep-sea underwater work machinery . The seawater hydraulic technology not only simplify the structure , maintenance and operation of machinery , but also is compatible with ocean environment .

以海水为工作介质可以使作业机械具有系统结构简单、使用维护方便和环保等优点。因此，海水液压传动技术是当前深海作业技术及装备的研究热点。

The Application of Fluid Couplings in Marine Power Transmission

液力偶合器在船舶动力装置中的应用