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文章主要讨论了三维纺织预制件,包括:机织、针织、编织和缝合三维织物在结构上的特点。由于在三维纺织复合材料中,纤维在三维空间中相互交织和交叉,形成了一个不分层的整体结构,所以它和层合复合材料相比,具有优良的层间性能和其它力学性能,可制作第一承力结构件和高功能制件。文章还介绍了树脂基三维纺织复合材料的复合固化技术,包括树脂传递模塑技术和树脂膜融渗技术。通过文章,说明了三维纺织复合材料具有广泛的应用前景。 相似文献
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空间伸展臂热应变与热变形光纤监测技术 总被引:1,自引:1,他引:0
针对空间伸展臂在热载荷作用下承载特性与形态变化的监测需求,提出了一种基于分布式光纤传感器的伸展臂结构温度、热应变以及热变形集成监测技术。借助ANSYS Workbench有限元分析软件,构建了单端热载荷作用下铝合金空间伸展臂结构热-力模型,分别得到不同局部热载荷下伸展臂轴向温度、热应变以及热变形分布与变化规律。在此基础上,提出了基于有限元分析与热传导理论的两类伸展臂轴向热变形计算方法。构建了分布式光纤传感监测系统,实时监测伸展臂若干关键位置的温度值与应变值,进而反演出结构轴向温度场、应变场连续变化信息。研究表明:采用有限元拟合法与热传导解析法计算所得伸展臂轴向热变形误差分别为5.256%与3.556%。相关成果能够为未来航天器在轨服役状态监测与辨识提供技术支撑。 相似文献
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The designation of a simple, non-invasive, and highly precise method to monitor the thermal status of astronauts is important to enhance safety during extravehicular activities (EVA) and onboard emergencies. Finger temperature (Tfing), finger heat flux, and indices of core temperature (Tc) [rectal (Tre), ear canal (Tec)] were assessed in 3 studies involving different patterns of heat removal/insertion from/to the body by a multi-compartment liquid cooling/warming garment (LCWG). Under both uniform and nonuniform temperature conditions on the body surface, Tfing and finger heat flux were highly correlated with garment heat flux, and also highly correlated with each other. Tc responses did not adequately reflect changes in thermal balance during the ongoing process of heat insertion/removal from the body. Overall, Tfing/finger heat flux adequately reflected the initial destabilization of thermal balance, and therefore appears to have significant potential as a useful index for monitoring and maintaining thermal balance and comfort in extreme conditions in space as well as on Earth. 相似文献
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Medical and surgical applications of space biosensor technology 总被引:1,自引:0,他引:1
Hines JW 《Acta Astronautica》1996,38(4-8):261-267
Researchers in space life sciences are rapidly approaching a technology impasse. Many of the critical questions on the impact of spaceflight on living systems simply cannot be answered with the limited available technologies. Research subjects, particularly small animal models like the rat, must be allowed to function relatively untended and unrestrained for long periods to fully reflect the impact of microgravity and spaceflight on their behavior and physiology. These requirements preclude the use of present hard-wired instrumentation techniques and limited data acquisition systems. Implantable sensors and miniaturized biotelemetry are the only means of capturing the fundamental and critical data. This same biosensor and biotelemetry technology has direct application to Earth-based medicine and surgery. Continuous, on-line data acquisition and improved measurement capabilities combined with the ease and flexibility offered by automated, wireless, and portable instruments and data systems, should provide a boon to the health care industry. Playing a key role in this technology revolution is the Sensors 2000! (S2K!) Program at NASA Ames Research Center. S2K!, in collaboration with space life sciences researchers and managers, provides an integrated capability for sensor technology development and applications, including advanced biosensor technology development, spaceflight hardware development, and technology transfer and commercialization. S2K! is presently collaborating on several spaceflight projects with dual-use medical applications. One prime example is a collaboration with the Fetal Treatment Center (FTC) at the University of California at San Francisco. The goal is to develop and apply implantable chemical sensor and biotelemetry technology to continuously monitor fetal patients during extra-uterine surgery, replacement into the womb, through birth and beyond. Once validated for ground use, the method will be transitioned to spaceflight applications to remotely monitor key biochemical parameters in flight animals. Successful application of NASA implantable biosensor and biotelemetry technologies should accelerate the advancement of this and other modern medical procedures while furthering the exploration of life in space. 相似文献
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Richard J. LaBotz 《Acta Astronautica》1985,12(3):171-176
With the arrival of the reusable space propulsion systems, the new field of propulsion system health monitoring is emerging. Health monitoring consists of measuring and reviewing engine operating parameters which will warn of engine deterioration or abnormal operation well in advance of any failure. The health monitoring data can be used to establish that an engine should be repaired or replaced, thereby avoiding a future flight failure. This paper presents a status report on the development of a health monitoring system for regeneratively cooled thrust chambers. The system employs a single measurement with a simple nonintrusive sensor to monitor the operation of the engine. The basic measuring and sensor concept is explained and the results of both laboratory and engine firing tests with the health monitoring system are presented. 相似文献
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M D Ross 《Acta Astronautica》2001,49(3-10):441-445
Safety of astronauts during long-term space exploration is a priority for NASA. This paper describes efforts to produce Earth-based models for providing expert medical advice when unforeseen medical emergencies occur on spacecraft. These models are Virtual Collaborative Clinics that reach into remote sites using telecommunications and emerging stereo-imaging and sensor technologies. 相似文献
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Following the successful maiden flight of the Long March 11(LM-11) launch vehicle from the Jiuquan Satellite Launch Center in September 2015, the first sea-launched carrier rocket dedicated to provide a launch service for small satellites and their constellations, the Long March 11 Sea Launch(LM-11 SL) has been under development by the China Academy of Launch Vehicle Technology(CALT) and the China Great Wall Industry Corporation(CGWIC). It is planned to commence launch service in 2018. Based on the LM-11, a land-launched four-staged solid launch vehicle which has entered the market and accomplished launch missions for several small satellites in the past 3 years, the newly adopted sea launch technology enables transport and launch of LM-11 SL from maritime ships, providing flexible launch location selection.After inheriting the mature launch vehicle technologies from previous members of the Long March launch vehicle family and adopting a new way of launching from the sea, the LM-11 SL is capable of sending payloads into low Earth orbits with all altitudes and inclinations, from 200 km to 1000 km, from equatorial to sun synchronous, within a shortduration launch campaign. The LM-11 SL provides a flexible, reliable and economical launch service for the global small satellite industry. 相似文献
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Measuring temperatures, mechanical loads and derived quantities precisely and reliably play an important role in spaceflight. With spacecraft becoming increasingly complex, upscaling of present telemetry techniques can become cumbersome. Additionally, there are entirely new sensory requirements, resulting from emerging technologies such as smart structures, active vibration damping and composite material health monitoring. It has been demonstrated in preceding studies that these measurements can be advantageously and efficiently carried out by means of fiber-optic systems. The most prominent fiber-optic strain and temperature sensor is the fiber Bragg grating. Typically, multiple fiber Bragg gratings are used to translate entire temperature and strain fields into an optical wavelength information. For the interrogation of these sensors, a broadband or scanning light source is required. Additional requirements with respect to the light source are high intensity and unpolarized illumination of the gratings. These constraints can be met by a light source that is based on amplified spontaneous emission in a rare-earth-doped fiber. In the presented work, a compact light source, adapted for measurement applications and targeted towards space applications, has been developed. The design of this light source is presented, as well as its implementation. The light source has been designed and tested for selected core aspects of space robustness and the results of these tests are summarized. 相似文献
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研究了一种利用捷联惯导、星敏感器和北斗接收机进行长航时高精度组合导航的方法.对捷联惯导系统误差、星敏感器安装误差、北斗定位误差分别进行建模,将星敏感器输出的载体姿态角、北斗接收机输出的载体位置与捷联惯导输出的对应参数分别相减作为量测,推导获得组合导航量测方程.针对长航时环境下可能面临量测噪声统计特性的不确定问题,采用简化的Sage-Husa自适应滤波算法进行组合导航滤波设计.仿真结果表明,该组合导航方法的定位精度达到±11.86m,定姿精度达到±0.27′,并且对量测噪声统计特性的突变具有较强的鲁棒性. 相似文献
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The concept of a European remote sensing satellite (ERDSAT) launched by ARIANE is characterized by a model payload, consisting of a synthetic aperture radar (SAR) and an optical multispectral scanner with 9 channels, for land applications or coastal zone missions. The mission goal of ERDSAT is based on European user requrements where a strong need for optical and microwave sensor operation on board the same satellite in a simultaneous or sequential mode is expressed. A data collection system is included. The proposed spacecraft is three-axes-stabilized and has a Sun-synchronous, near polar circular orbit with 750 km altitude. The selected configuration separates payload module and bus module. A thermostable carbon fibre grating structure is the central framework of the satellite. Each major subsystem is housed in a separate compartment and can be integrated and tested individually. First mass estimates resulted in 450 kg for the payload and 880 kg for the bus. The maximum power needed is 1750 W (for 6 min three times a day), which will be provided by a 1330 W solar array and two batteries. A “low cost” model philosophy is defined; the time schedule envisages a program start in late 1980 and a launch possibility end of 1985. 相似文献
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捷联惯导/星敏感器组合系统的在轨自标定方法研究 总被引:2,自引:0,他引:2
研究了捷联惯导/星敏感器组合系统中对陀螺仪和星敏感器进行在轨自标定的方法。分析捷联惯导系统和星敏感器的误差源,对陀螺仪随机漂移和星敏感器安装误差进行建模并列入系统状态,建立系统状态方程;利用捷联惯导输出的载体位置、姿态与星敏感器输出的姿态矩阵来构造量测,建立量测方程。设计卡尔曼滤波算法,经过滤波计算获得陀螺仪随机常值漂移和星敏感器安装误差的估计值,从而实现组合系统的在轨自标定。仿真结果表明,基于卡尔曼滤波的在轨自标定方法能够标定出85%以上的陀螺仪随机常值漂移和95%以上的星敏感器安装误差。 相似文献
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The medical care for the integrated crew of the International Space Station (ISS) will require close co-operation between the partner agencies in the areas of selection, medical surveillance, countermeasures, and handling of acute medical problems. Based on a commonly accepted policy of shared care and responsibilities medical guidelines, procedures, and standards for medical data and communication need to be harmonised under the responsibility of the Multilateral Medical Operations Panel (MMOP). A supporting telemedical network connecting the partners on an organisational and technical level will facilitate the harmonisation process and provide new tools for effective co-operation between medical professionals. Earth bound projects with similar application areas can profit from and contribute to this development and need to be considered for efficient implementation and exploitation. 相似文献
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针对星敏测量输出的是惯性系下姿态信息,无法直接应用于实际的机载地理系下姿态组合导航,提出了地理系下耦合位置误差的机载惯性/星光组合滤波算法。该算法分析了
惯性姿态到地理系姿态之间的相互转换关系,在建立的地理系下姿态线性化量测方程基础上,通过引入导航位置误差转换矩阵,建立了星敏测量的惯性姿态到惯性导航计算输出的地理系姿态之间的耦合误差模型;同时针对姿态观测时高度通道不可观的特点,增加了气压高度输出为系统的观测量;实现了基于星敏测量的惯性系下姿态对地理系下惯性导航误差的直接修正。姿态耦合误差仿真结果表明该组合导航算法设计成功可行,为星敏在机载环境下的组合导航应用提供了新的思路。
相似文献
惯性姿态到地理系姿态之间的相互转换关系,在建立的地理系下姿态线性化量测方程基础上,通过引入导航位置误差转换矩阵,建立了星敏测量的惯性姿态到惯性导航计算输出的地理系姿态之间的耦合误差模型;同时针对姿态观测时高度通道不可观的特点,增加了气压高度输出为系统的观测量;实现了基于星敏测量的惯性系下姿态对地理系下惯性导航误差的直接修正。姿态耦合误差仿真结果表明该组合导航算法设计成功可行,为星敏在机载环境下的组合导航应用提供了新的思路。
相似文献
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基于CMOS APS的星敏感器光学系统参数确定 总被引:8,自引:0,他引:8
基于CMOS APS图象传感器的星敏感器是适应航天技术的发展而产生的新一代姿态敏感器。确定光斑形状和大小、光学系统有效通光孔径、视场和焦距等参数是进行星敏感器光学设计的前提。本文基于选定的CMOS APS图象传感器分别对这些参数进行了分析和计算。确定光斑形状和大小的依据是,减小由于探测器像元对光斑能量分布的采样导致点扩散函数变形,从而引起的利用亚像元技术求星像中心的计算误差。光学系统的有效通光孔径与星敏感器所能探测到的极限星等有关,通过从目标辐射特性直到探测器响应的能量计算可以确定孔径的大小。确定视场和焦距首先要满足星敏感器实现全天自主星图识别所需的导航星捕获概率,其次要考虑与之相关的误差。 相似文献