1) spacelift equipment architecture
航天运输装备体系
1.
Based on the life cycle cost(LCC)theory,this paper analyzes the LCC model of expendable,reusable,and hybrid operationally responsive spacelift equipment architecture.
成本是影响应急空间(operationally responsive space,ORS)航天运输装备体系发展的关键因素之一。
2) space equipment system of system
航天装备体系
1.
From two levels of equipment and system of system,the evaluation standard parameters were proposed,and the effectiveness models were built,and the simulation was done;the Agent-based simulation framework of space equipment system of system was built,and based on simulation,the optimization and evaluation of space equipment system of system were r.
航天装备体系化是信息化战争发展的必然趋势,仿真是分析评价这种复杂系统的最好的方法之一。
3) space equipment architecture
航天装备体系
1.
With keeping targets on sea under surveillance and striking them as its tasks,the evaluation model of the space equipment architecture is built and its logical characteristics and operational effectiveness are analyzed.
利用AOCPN建立了以海上目标监视和打击为任务的航天装备体系评价模型,对其逻辑特性和作战效能进行了分析。
2.
With keeping targets on sea under surveillance and hitting the targets as tasks, performance analysis model of the space equipment architecture was built.
利用AOPN建立了以海上目标监视和打击为任务的航天装备体系性能分析模型,着重对其逻辑特性进行了分析。
4) space weapon equipment systems development
航天装备体系发展
5) Space transportation system
航天运输系统
1.
Space transportation system is an infrastructure of the space activities of a country,and it is also an indicator of its overall national strength.
航天运输系统作为一个国家开展航天活动的支撑和基础,是其综合国力的重要标志之一。
6) space equipment
航天装备
1.
The cost estimating of space equipment procurement is a significant com- ponent part of the procurement and management of space equipment.
航天装备采购费用估算是航天装备采购管理工作的重要组成部分。
2.
According to its characteristics, space equipment architecture was divided into logical architecture which was described by functional model built by using of colored stochastic Petri net, and physical architecture which was described by physical model built by using of queuing theory and space equipment performance models.
针对航天装备体系的特点,将航天装备体系分为逻辑体系结构和物理体系结构,利用着色随机 Petri 网建立功能模型,描述逻辑体系结构,利用排队论及航天装备性能模型建立物理模型,描述物理体系结构,二者通过信息交互构成完整的体系。
3.
Strongly developing space equipment is primary task of our military equipment development in this new period.
大力发展航天装备是新时期我军装备发展的首要任务。
补充资料:航天员舱外活动装备
航天员舱外活动装备
extravehicular mobility equipment for astronauts
hangtianyuan cQngwai huodongZhuangbei航天员舱外活动装备(e、‘ravehicularmobility equiP眼nt for astronauts)航天员舱外作业和机动飞行所穿着和携带的全套保障装备(图l)。它包括航天服、携带式生命保障系统、舱外活动机动装置和有关的辅助系统等。 航天服构成一个柔性密闭空间,能保障航天员的生命安全和工作能力的专用服装。它能防护空间各种环境因素对人体的危害。航天服由服装、头盔、手套和靴子组成。①服装。它由液冷通风服、气密限制层和外套组成。液冷通风服是一种网状结构,躯干和四肢部位编织有近90米长的塑料细管,管的内径为32毫米,温度可调节的循环水流流过时带走人的代谢热。水温的调节是由航天员通过显示和控制组件上的手动阀门进行的。沿臂和腿部分布的通风管使氧气、二氧化碳和水蒸气回流到携带式生命保障系统进行净化、冷却和除湿。液冷通风服的穿脱口装有拉链,便于穿脱。气密限制层构成的气密空间是航天服的主体结构,保持规定的气压和气体成分,保护航天员不受真空环境的危害。由于限制层的承压要求高,选用强度高、伸长率低的织物和橡胶复合材料制成。限制层的关键技术是关节的活动性能,尤其是高压航天服必须采用等容结构的活动关节。美国航天。著1嘴缨七*、遮阳催鬃刃光_撼务! 瞥/霆酬签}乳~”霭兰豁卷熟”~包旨拾言瞬暗赢下躯干服金赘”通服 石匕夏J喇玺犷一靴子 图I航天员舱外活动装备飞机使用的航天服的气密限制层是由躯干、上肢和下肢等部分组成。上、下身通过腰部的连接环结合在一起。上躯千为硬式结构,便于安装生命保障背包及有关附件。下身为软结构,包括裤子和靴子。外套具有保护气密限制层、防火、防微流星和防太阳辐射的功能,通常采用多层组合结构,包括镀铝聚酞亚胺薄膜、玻璃纤维布、玻璃纤维纱网、达可隆纱、聚醋薄膜和橡胶尼龙布。新研制的外套防护层采用镀金材料。对于月球表面昼夜温度在+13D℃一160℃之间变化的恶劣环境,还要使用真空隔热屏蔽层。它由多层防护材料组成。其中包括金属箔片和镀铝薄膜等。②头盔。分为面窗型和全透明型。前者由盔壳、通凤衬垫、面窗与开关机构、进食嘴和颈圈组成;后者由聚碳酸脂模压成头形壳体,具有视野宽、气密性好的优点。二者均通过颈圈与服装连接。面窗在平时可随意启闭,紧急减压时可自动或手动关闭并自锁。全透明头盔平时不戴,出舱活动前戴上。
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参考词条