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囊式抗荷系统
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  bladder-type anti-g system
     Methods Under the condition of 3 G/s in centrifuge,+Gz tolerances were tested in 6 trainees with new bladder-type anti-G system respectively on 13° and 45° tilt-back seats.
     方法 在离心机 3G s的条件下 ,测定 6名锻炼员分别在座椅后倾角 13°、4 5°时采用新型囊式抗荷系统 +Gz耐力。
短句来源
     Conclusion The comprehensive protective function of 45° tilt-back seats and new bladder-type anti-G system may amount to 10 G.
     结论  4 5°后倾角座椅与新型囊式抗荷系统的综合防护性能可达到 10G。
短句来源
     Study on comprehensive protective function of tilt-back seats and new bladder-type anti-G system
     后倾座椅与新型囊式抗荷系统综合防护性能研究
短句来源
     Objective To explore the comprehensive protective function of tilt-back seats and new bladder-type anti-G system.
     目的 探讨后倾座椅与新型囊式抗荷系统的综合防护性能。
短句来源
  “囊式抗荷系统”译为未确定词的双语例句
     Results: The anti G effectiveness of the advanced bladder system was 5.33 G, which was significantly higher than that of the capstan system by 1.35 G ( P < 0.01 ).
     结果 :先进囊式抗荷系统的抗荷性能为 5 .33G ,比侧管式抗荷系统的抗荷性能高出 1 .35G(P <0 .0 1 ) ;
短句来源
     Result The +Gz protection and the +Gz time tolerance were obtained.
     结果得到了该先进囊式抗荷系统的 +Gz防护作用和被试者的 +Gz时间耐力。
短句来源
     Mehtods Using the multi element, nonlinear mathematical model of human circulatory respiratory system developed for simulating cardiovascular effects of +G Z acceleration and protection afforded by advanced bladder anti G system, computer simulation study was performed to investigate this relationship.
     方法 利用所建立的适用于仿真 +GZ加速度及先进囊式抗荷系统呼吸 -循环影响及其抗荷效果的多元非线性循环呼吸系统模型 ,对扩大囊覆盖面积抗荷服 (ECGS)、抗荷正压呼吸(PBG)、后仰座椅等抗荷措施单独使用及综合使用时的抗荷效果进行了仿真实验研究。
短句来源
     Results Under the two conditions,the anti-G tolerances of all subjects were as high as 9 G 10 s,but under the 45° condition,the heart rate and fatigue level were lower and anti-G tolerance of one subject amounted to 10G 10 s.
     结果 受试者采用新型囊式抗荷系统在座椅后倾角 13°、4 5°时的抗荷耐力均可达到 9G 10s ,但座椅后倾角 4 5°时心率、疲劳程度低 ,且有 1名受试者的抗荷耐力达到了 10G 10s。
短句来源
     Method Six male subjects using the new bladder anti G system were exposed to 10~15 s ladder shaped +Gz profiles without anti G straining maneuver(AGSM), then exposed to +5~9 Gz simulated aerial combat maneuver(SACM) with leg straining.
     方法 6名男性被试者采用本囊式抗荷系统不做抗荷动作 (AGSM) ,暴露于 1 0~ 1 5s的梯形 +Gz曲线后 ,再暴露于 + 5~ 9Gz模拟空战动作曲线 (SACM ) ,并伴随腿部适度收紧。
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  相似匹配句对
     On development of efficient bladder auti-G system
     论发展高效系统
短句来源
     Physiological Studies on Advanced Bladder Anti-G System of High Performance Fighter Aircraft
     高性能战斗机先进系统的生理学研究
短句来源
     +Gz Protection of a New Bladder Anti-G System
     一种新型系统的+Gz防护作用(英文)
短句来源
     Study on comprehensive protective function of tilt-back seats and new bladder-type anti-G system
     后倾座椅与新型系统综合防护性能研究
短句来源
     Objective To explore the comprehensive protective function of tilt-back seats and new bladder-type anti-G system.
     目的 探讨后倾座椅与新型系统的综合防护性能。
短句来源
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In this paper, advances of anti-G system at home and abroad were summarized. It wasdefined that the efficient bladder anti-G system was the current tendency of development. Suggestionson accelerating reseach works in this aspect, enchancing efficiency of blader anti-G system and realizingthe requirements of seriation of anti-G system and for general use were advanced.

综述了国内外发展抗荷装备的状况,明确了高效囊式抗荷系统是当今的发展趋势,提出加速这方面的研究,以提高囊式抗荷装备的性能,实现抗荷装备通用化、系列化的建议。

TO develop an extended model of human cardiovascular system for simulating systematic circulation, pulmonary circulation and respiratory system. METHODS: A multi-element. nonlinear mathematical model of human circulatory-respiratory system was developed based on previous work. The more detailed model of abdominal and leg vessel segments, the multi-element and nonlinear model of pulmonary circulation, and the model of respiratory system introduced by descriptions of intrathoracic Pressure. intra-abdominal pressure...

TO develop an extended model of human cardiovascular system for simulating systematic circulation, pulmonary circulation and respiratory system. METHODS: A multi-element. nonlinear mathematical model of human circulatory-respiratory system was developed based on previous work. The more detailed model of abdominal and leg vessel segments, the multi-element and nonlinear model of pulmonary circulation, and the model of respiratory system introduced by descriptions of intrathoracic Pressure. intra-abdominal pressure and pulmonary alveolar pressure. were established and incorporated into the previous models. RE SULTS: Computer simulation studies were performed to investigate the cardiovascular effects of acceleration stress and the protection effectiveness of advanced bladder anti G system. The simulation results were in accordance with the results of the parallel human centrifuge experiments and some centrifuge data published before. CONCLUSION: Tile develeloped model was an effective means to simulate the human respiratory-circulatory system and its interaction. and was of great similarity in hemodynamics with human physiological system.

目的:建立能模拟人体血液体、肺循环系统及呼吸运动影响的较全面心血管系统模型.方法:通过对原有多元人体循环模型的改进与扩展.建立了多元非线性人体循环呼吸系统模型.该模型具有扩展的血管系统.并包含多元非线性肺循环模型及呼吸系统模型.后者通过引入胸内压、腹内压及肺泡压等生理变量及其作用机制.可仿真呼吸运动对体循环及肺循环血流分布的影响.结果:利用所建模型对重力加速度生理影响及先进囊式抗荷系统防护性能进行了仿真研究,结果与同步进行的人体离心机实验结果及国内外已发表的典型实验数据基本一致结论:该模型能有效模拟人体呼吸循环系统及其相互作用.并同生理系统在动力学特性方面具有很好的相似性.

The purpose of this study was to assess the +G z \ protection afforded by the advanced bladder anti G system in the centrifuge against a capstan anti G system. The results demonstrate that the + G z protection afforded by the advanced bladder anti G system is significantly higher than that by the capstan system, and thus the suggested advanced bladder anti G system is feasible.

对先进囊式抗荷系统的抗荷性能进行了离心机评价,并与侧管式抗荷系统进行比较。研究结果证实了先进囊式抗荷系统的抗荷性能明显高于侧管式抗荷系统,其配套方案是可行的。

 
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