rapid decompression
英 [ˈræpɪd ˌdiːkəmˈpreʃn]
美 [ˈræpɪd ˌdiːkəmˈpreʃn]
高速减压(指密封舱);突然失压
双语例句
- Facilitate rapid decompression software, support functions of the right mouse button and drag and drop.
方便快速的解压缩软件,支持拖放和鼠标右键功能。 - The tumor was removed via rapid decompression, coagulation of the feeder from the meningohypophyseal trunk, and dissection along the cranial nerves.
通过迅速减压,电刀凝固,从脑膜垂体干上移开,沿着颅神经分离。 - Arterial gas embolism occurs in dysbaric pressure workers undergoing rapid decompression.
从事异常气压的工作人员于工作压力下做快速的减压上升,可造成空气栓塞症的发生。 - A preliminary model of rapid decompression process when a crack suddenly opens in the vapor region is build.
对液化石油气容器在气相壁上出现裂口后引发的快速降压过程建立了初步模型。 - Development of a rapid decompression chamber suitable for middle and small animals
适用于中、小动物的迅速减压舱的研制及其实验研究 - Effect of body surface protection on rabbit lung injury induced by rapid decompression
体表防护对迅速减压致兔肺损伤的防护作用 - Objective: To study the effect of rapid decompression on rabbit lung injury and the effect of body surface protection, so as to provide experimental basis for revising the tolerance limit and making up protective measures.
目的:研究迅速减压对肺损伤的影响及体表防护的作用,为修订机体对迅速减压的耐限和制定防护措施提供实验依据。 - The effects of rapid decompression on spinal cord histology in rabbits
快速减压对家兔脊髓组织学的影响 - For rapid decompression may do harm to volunteers, it is a usual way for researchers to experiment by animal models and study lung trauma by rapid decompression and protection.
由于迅速减压对肺脏具有一定的损伤,采用动物模型进行模拟实验,观察迅速减压对肺脏的影响,成为航空医学工作者常用的方法。 - Objective To study the effect of rapid decompression on ultrastructure of the lung in rabbits.
目的研究迅速减压对兔肺超微结构的影响。 - A new type of rapid decompression chamber suitable for middle and small animals is developed.
研制一种新型的、适用于中、小动物的迅速减压舱。 - The effect of rapid decompression on femur blood flow of rabbits
快速减压对家兔股骨局部血流灌注的影响 - Objective To investigate the effects of rapid decompression on blood-gas analysis, electrolyte and lung pathology in rabbits.
目的探讨快速减压对兔动脉血气、电解质和肺病理改变的影响。 - Conclusion The simultaneous enhancement of activity of these enzymes suggest that there was injury to the lung consistent with the degree of injury after rapid decompression.
结论这些指标同时升高,可以提示发生了迅速减压肺损伤,其升高程度与肺受损的程度一致。 - The rapid decompression chamber can be applied to simulate many kinds of rapid decompression environment, especially that of the very high decompression rate, and can provide important damage models to study the mechanism and treatment of blast injury and the decompression sickness.
能模拟多种迅速减压环境,尤其是减压速率很快的减压环境,可为冲击伤和减压损伤的发生机制及救治研究提供重要的致伤模型和实验手段。 - Conclusions Explosive decompression could inflict lung injury like those caused by shock wave and rapid decompression ( on large animal).
结论爆炸减压能引起类似冲击波和快速减压(对大动物)所造成的肺损伤; - To study injurious effects on rabbit lung from rapid decompression, slow decompression and the rapid decompression were used in two respective groups consisting of 30 rabbits.
为研究迅速减压对兔肺的损伤作用,将30只新西兰白兔分组进行慢减压实验和迅速减压实验,观察动物损伤情况。 - Lung trauma by rapid decompression is one of serious threatens to flight personnel in aviation activities in high altitude.
迅速减压肺损伤是飞行人员在高空飞行活动中可能面临的较为严重的威胁之一。 - The physiological effects of various oxygen-rich gases on gas exchange functions of dog following rapid decompression
呼吸不同富氧浓度气体后迅速减压对狗气体交换功能的影响 - Preliminary Model of Rapid Decompression Process in LPG Tank
液化石油气储罐快速降压过程的初步模型 - Studies on Lung Trauma by Rapid Decompression in Different Peak Values and Protection on Rabbits
迅速减压不同峰值对兔肺损伤的影响及防护的研究 - Conclusions ( 1) Arterial blood-gas and hematocrit changes could be induced by rapid decompression.
结论(1)快速减压可造成家兔动脉血气改变和血液浓缩。 - Conclusions: Rapid decompression could induce lung injury.
结论:迅速减压造成一过性胸内压增高,引起机体肺脏损伤; - Injurious effects on rabbit lung from rapid decompression
迅速减压对兔肺的损伤作用 - Methods Twenty-one mice were randomly divided into rapid decompression group ( 14 mice) and normal control group ( 7 mice).
方法21只小鼠随机分为快速减压组(14只)和正常对照组(7只)。 - The effects on physiology and oxygen inversive diffusion following the rapid decompression at high altitudes, with various oxygen-rich supplies before decompression simulating the range of gas from the molecular sieve oxygen generating system ( MSOGS) were observed.
通过模拟分子筛制氧系统供气范围,即减压前富氧气体的高空迅速减压实验,观察对机体的生理影响和氧反向弥散的变化。 - However, as a result of the change of the cabin pressure system, the fatalness of lung trauma by rapid decompression will increase.
然而,由于现代飞机座舱压力制度发生变化(座舱压差增加),迅速减压肺损伤的危险性随之增加。