推力矢量技术

推力矢量技术推力矢量技术
  1. 飞机推进系统关键技术&推力矢量技术

    Thrust Vector Technique , the Vital Technology of Aircraft Propulsion System

  2. 推力矢量技术及其基本方案述评(上)

    Thrust Vectoring Control Technology and its Basic Concept Review ( Part 1 )

  3. 推力矢量技术在空空导弹上的应用分析

    The Application Analysis of Thrust Vector Control Systems of Air to Air Missile

  4. 推力矢量技术在战斗机上的应用和试验

    Use And Test of Thrust-Vectoring Technology on Fighters

  5. 简述推力矢量技术的作用。

    The important effect of thrust vectoring technology is briefly discussed in this paper .

  6. 引进推力矢量技术,建立带推力矢量的飞机模型方程;

    First , the model of aircraft is built with the technology of vectored thrust .

  7. 未来空战与推力矢量技术

    Future Air Combat and Thrust Vectoring Technology

  8. 首先对飞机推力矢量技术的研究发展概况作了简要介绍;

    Firstly the general situation of thrust vector technique ( TVT ) research and development is briefly accounted .

  9. 本文提出了一种采用推力矢量技术的喷水式推进器,用以提高水下航行器的操纵性和机动性。

    This dissertation advances a new kind of Water Pump Thruster which uses Thrust Vector Technical to improve the AUV maneuverability and flexibility .

  10. 仿真结果表明采用推力矢量技术的喷水式推进器提高了水下航向器的操纵性和机动性。

    The simulation results prove that the AUV maneuverability and flexibility is improved because of the Water Pump Thruster with Thrust Vector Technical using .

  11. 建立起一种具有推力矢量技术和过失速机动能力的现代飞机模型,并给出了控制律的解算方法。

    A modern aircraft model with Thrust Vectoring ( TV ) technique and the post stall ( PST ) capacity and the control law are given .

  12. 自适应控制技术是未来第四代弹射座椅的显著特点,其关键技术是可控推力矢量技术和飞行控制技术。

    The self-adaption technology is the primary characteristic of the 4th generation ejection seats in the future ; The key technology is thrust-vector and flight control .

  13. 随着现代航空工业的迅速发展,推力矢量技术作为现代战斗机的必备技术,已经得到越来越多的重视。

    With the development of the modern aviation industry , the vector thrust technology was regarded more and more important as the essential technology of modern fighter plane .

  14. 从隐身性、超音速巡航、超机动、敏捷性和短距起降等影响空战效能的因素入手,研究了推力矢量技术对上述影响空战效能因素的作用。

    This paper begin with some factors which affect air combat efficiency such as stealth , supersonic cruise , post-stall maneuvers , agility and short take-off and landing and so on , and investigates the effect of thrust vectoring technology on air combat efficiency .

  15. 推力矢量控制技术是当今世界战斗机技术研究的一个热点。

    Thrust vector control is an important technology for fighter .

  16. 扰流片式弹射火箭推力矢量控制技术研究

    Study on a Thrust-vector Control Technique of the Ejection-rocket with the Spoiler

  17. 推力矢量控制技术与现代飞机

    Thrust vector control technology and modern aircraft

  18. 再评推力矢量控制技术的发展

    Again Reviewing Thrust Vectoring Control Technology

  19. 推力矢量控制技术和过失速机动使战斗机的空战效能大大增加,引起了世界各国的关注。

    The thrust vectoring control technology and post-stall maneuverability enhance the aircraft 's combat effectiveness greatly , and cause the worldwide interest .

  20. 推力矢量控制技术在战斗机上的应用,使战斗机有能力进入过失速飞行领域,使飞机的飞行包线得以扩展。

    The application of thrust vectoring control technology makes the aircraft possess the ability to fly in post-stall domain , therefore the flight envelope is extended .

  21. 针对火箭发动机推力矢量测量的技术要求及精度指标,设计了测试系统校准装置。

    According to technical requirements and accuracy parameters of thrust vector measuring , calibration device is designed .

  22. 矢量喷管是先进战斗机的特征,本文讨论了实现推力矢量存在的技术难点。

    As thrust vectoring nozzle is the feature of advanced fighters , the difficulties in implementing thrust vectoring are summarized .

  23. 主流与推力矢量尾喷流的干扰效应是推力矢量技术研究的一个主要方面。

    The interaction between main flow around aircraft model and vectoring jet flow is one of the main aspects of research work on thrust vectoring control technology .