高空操縱性 的英文怎麼說
中文拼音 [gāokōngcāozōngxìng]
高空操縱性
英文
high-altitude controllability- 高 : Ⅰ形容詞1 (從下向上距離大; 離地面遠) tall; high 2 (在一般標準或平均程度之上; 等級在上的) above...
- 空 : 空Ⅰ形容詞(不包含什麼; 裏面沒有東西或沒有內容; 不切實際的) empty; hollow; void Ⅱ名詞1 (天空) s...
- 操 : Ⅰ動詞1 (抓在手裡; 拿; 掌握) hold; grasp 2 (做; 從事) act; do; operate 3 (用某種語言、方言說...
- 縱 : Ⅰ動詞1 (釋放; 放走) release; set free; let go 2 (放任; 不約束) indulge; give oneself up to; l...
- 性 : Ⅰ名詞1 (性格) nature; character; disposition 2 (性能; 性質) property; quality 3 (性別) sex ...
- 高空 : high altitude; upper air; welkin高空病 airsickness; altitude sickness; aeroembolism; hypobaropath...
- 操縱 : 1. (控制; 開動) operate; control; roll; steer 2. (支配;控制) rig; manipulate; govern
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By this means, the performance of the shock absorber is improved as well as the quality of suspension system. after tested on the testing equipment and on the road condition matched with the car, outer performance of the double - tube gas hydraulic shock absorber pr ove to be excellent and the indicator diagram are full and smooth. the operation and control of vehicle are also obviously improved. with the improvement of domestic components as well as gas charging equipment and gas charging workmanship, the double - tube hydraulic shock absorber meets domestic market requirements and will have a better prospect
我們對研製的雙筒充氣液壓減振器進行了臺架試驗和裝車道路試驗,表明這種減振器具有優良的外特性,其示功圖豐滿、圓滑,車輛操縱性明顯改善。隨著我國零部件質量水平的提高,及充氣設備、充氣工藝的改進,雙筒充氣液壓減振器將有更廣闊的發展空間,適合我國的國情。But another question the control system brings is that the aircraft manipulation character does not meet the requirements. the aircraft needs one more control systems to make the manipulate character satisfy the character requirements. both control systems are called control and augmentation systems
高空高速飛機本身靜穩定性能不足,加入增穩控制系統后雖然滿足了穩定性的要求,但造成了操縱性能的不足,必須再加入一個增控迴路來解決這個問題。Brilliant engineering and innovation lie behind these unseen elements that operate wireless communications, satellite broadcasts, air traffic control systems, microwave ovens, video cameras, touch - tone phones, computers, and many other products that have improved the quality, safety, and convenience of modern life
在這些看不見的因素後面,傑出的工程學和創新技術操縱著無線電通訊、衛星廣播、空中交通管制系統、微波爐、攝像機、按鈕式電話機、電腦和其他改善了現代生活質量,提高其安全性和舒適性的產品。With the improvement of modern submarines " whole performance, the design of submarines " maneuver is not confined to the single classic evaluate standard like before, but is expanded to satisfy the requirements of spacial big - range motions and special fight
隨著現代潛艇總體性能的提高,對潛艇操縱性的設計,已不是僅僅停留在以往的一些單項經典評價指標上,而是要擴大到空間大攻角機動性及特殊戰斗動作的要求。Abstract : software reusability and workspace management are two key factors for the large scale scientific computations and application development. workspace management framework system is based on an object - oriented hierarchical model and provides applications with an effective development and management environment, including reusable application frameworks, functional components, and visual - language - based workflow editing. the system is also characterized by its direct - manipulated graphical interface, object - oriented application management, and data - flow - based task scheduler
文摘:大型科學計算領域需要良好的應用開發和管理環境,以提高應用組件可復用性為目標,規范應用軟體開發過程和計算工作流程.科學計算工作空間管理框架將應用組件作為基本對象,對其進行層次式管理,同時為應用組件開發過程提供有效的管理工具、可復用的應用框架以及基於可視語言的工作流編輯服務.它的可直接操縱的參數界面,基於對象的應用組件管理模式和數據流驅動的任務調度機制使其具有鮮明的特點Since 1960s, the mechanical strength reliability and structural system reliability, whose main failure modes are fatigue and service life, has achieved a great deal of development and been applied to engineering machine, aeronautical and astronautical engineering, electric apparatus, bridges, ship, civil engineering etc. with the developing of space technology and tendency of machine towards high speed, precision, automation, one realizes the importance of mechanism reliability based on the accuracy of motion, for the errors of mechanism occurred more often than that of structure, especially in the field of aeronautical and astronautical engineering and operate system of weapon
上個世紀60年代以來,以疲勞、壽命為主要失效模式的機械強度可靠性、結構體系可靠性研究得到了很大發展,並迅速應用於工程機械、航空航天、電器設備、橋梁、船舶、土木工程等。隨著空間技術的發展以及機械的高速精密化、自動化發展,人們逐漸認識到以機構動作參數的準確可靠為主要指標的可靠性問題日益突出,因為在很多機械上機構的故障多於結構的故障,尤其是在航空航天及武器操縱系統方面。由於這些機構的運轉特性,振動可靠性的研究亦佔有突出的位置。分享友人