航天器空间环境干扰力矩分析与仿真研究

针对航天器在轨运行时所受到的空间环境干扰力矩进行建模分析,并通过实时解算和矢量叠加的方式进行仿真研究,尤其对太阳光压力矩与大气阻力力矩的建模与仿真提出了新的方法,该方法通过建立光照面与迎风面的判断准则,准确地对太阳光压力矩与大气阻力力矩进行了估计。对各种空间环境干扰力矩的精确建模与仿真为航天器精确姿态控制设计及系统姿态控制方案和控制执行机构的选取提供了依据,文中提出的方法简单易用,工程实现性强,为未来的工程应用提供了一定的理论依据。     

Sulfur “concrete” for lunar applications – Sublimation concerns

Melting sulfur and mixing it with an aggregate to form “concrete” is commercially well established and constitutes a material that is particularly well-suited for use in corrosive environments. Discovery of the mineral troilite (FeS) on the moon poses the question of extracting the sulfur for use as a lunar construction material. This would be an attractive alternative to conventional concrete as it does not require water. However, the viability of sulfur concrete in a lunar environment, which is characterized by lack of an atmosphere and extreme temperatures, is not well understood. Here it is assumed that the lunar ore can be mined, refined, and the raw sulfur melded with appropriate lunar regolith to form, for example, bricks. This study evaluates pure sulfur and two sets of small sulfur concrete samples that have been prepared using JSC-1 lunar stimulant and SiO₂ powder as aggregate additions. Each set was subjected to extended periods in a vacuum environment to evaluate sublimation issues. Results from these experiments are presented and discussed within the context of the lunar environment.     

Minimizing energy utilization for growing strawberries during long-duration space habitation

Strawberry is a candidate crop for space that is rich in protective antioxidants and could also have psychological benefits as a component of crew diets during long-duration space habitation. Energy for electric lighting is a major input to a controlled-environment crop-production system for space habitation. Day-neutral strawberry cultivars were evaluated at several different photoperiods to determine minimum lighting requirements without limiting yield or negatively impacting fruit quality. The cultivars ‘Tribute’, ‘Seascape’, and ‘Fern’ were grown at 14, 17, or 20 h of light per day, and fruit yield was evaluated over a 31-week production period. This amounted to a difference of 2418 kWh m⁻² in energy usage between the longest and shortest photoperiods. All cultivars produced similar total fresh weight of fruit regardless of photoperiod. Volunteer tasters rated organoleptic characteristics including sweetness, tartness, texture, and overall appeal as measures of fruit quality. Generally, organoleptic attributes were not affected by photoperiod, but these attributes were somewhat dependent upon cultivar and harvest time. Cultivars under different photoperiods varied in their production of fruit over time. ‘Seascape’ was the most consistent producer, typically with the largest, most palatable fruit. ‘Seascape’ plants subsequently were grown at 10-, 12-, or 14-h photoperiods over a treatment period of 33 weeks. Photoperiod again had no significant effect on total fruit weight, although there were periodic flushes of productivity. Fruit under all photoperiods had acceptable approval ratings. A large-fruited, day-neutral strawberry cultivar such as ‘Seascape’ remains productive under shortened photoperiods, allowing reductions in energy and crew labor while maintaining flexibility for mixed-cropping scenarios in space.     

基于光敏树脂分析的3D打印加速度传感器设计

MEMS加速度传感器所采用的硅微机械加工技术存在个性化定制、小批量生产成本方面的不足，而3D打印技术的优势就在于无需模具的自由化定制、一机多用实现低成本产品生产，3D打印的发展趋势就是实现微纳尺度结构的制造。在此背景下，采用光固化立体成型技术设计了一种3D打印压阻式加速度传感器结构。传感器基底使用耐高温光敏树脂制作，并采用丝网印刷工艺在基底表面印制导电碳浆形成应变计结构。为此，首先对耐高温光敏树脂的相关热学与机械性能进行分析。通过测试，得到该光敏树脂固化后的起始分解温度等热力学参数。其次，通过控制光敏树脂紫外光固化时间，取得了较好杨氏模量和弯曲强度的树脂，且为该加速度传感器的结构仿真优化与制作工艺提供了必需数据与重要依据。除此之外，还对所设计的碳浆应变计结构进行了测试，得到了有效灵敏系数。通过以上工作，为最终实现3D打印加速度传感器的制作做好铺垫，助力3D打印技术与MEMS传感器技术相融合。     

网络环境下的知识产权保护

网络的发展推进了人类信息化进程。但网络也给知识产权的保护带来了难题。文章通过对网络环境下知识产权保护的诸多问题的讨论及其所使用法律法规的分析 ,从而提出了对其进行保护的措施。     

压缩拐角区的压力,热流工程计算方法

 <正> 引言 从压缩拐角分离流动的试验及数值计算出发,建立起一个实用范围较广精度较高的工程估算程序,方便快速地估算出压缩拐角分离区和再附区的峰值压力、峰值热流;分离区和再附点位置;分离区长度等。这是气动设计部门关注的课题。这些工作是在文献(3,4)中的经验公式的基础上,按照分离流动流谱,分区进行迭代修正计算,对二维情况给出了完整     

新型太阳能利用装置的研究

对目前太阳能的几种常见的应用领域及相关装置进行了分析和研究,并在此基础上,结合相关理论,设计了利用太阳能的新型装置,如:太阳能房、太阳能热发电装置、聚光式太阳能电池发电装置等,这些装置将为更好地利用太阳能开辟新的途径.太阳能作为一种新兴的可再生能源有着不可限量的发展前景.     

红外低辐射层与吸波层参数匹配性研究

研究了红外材料与吸波材料参数匹配。结果表明,随着红外填料含量增加,红外辐射系数逐渐变小;磁导率变化很小,磁导率值也较小;而介电常数相对较大,且随着填料含量增加,介电常数开始急剧增大,后变平缓。填料含量相同时,片状填料颗粒比球状填料颗粒的红外辐射系数低。在填料参数及其含量选择适当情况下,可以兼顾红外及雷达吸收性能。     

机床热误差的无限冲激响应网络动态模型

本文阐述了数控机床热误差补偿技术的基本概念，提出了一种基于无限冲激响应（ⅡR）网络的数控机床热误差预报模型。讨论了该模型的建立及相关技术问题，对智能预报补偿系统进行了研究，并给出了智能预报的结果和精度评价。     

虚拟战场环境中直升机自主飞行仿真

虚拟战场环境在部队训练和武器系统评估中正在发挥越来越大的作用。虚拟战场环境中除了人在回路中的武器仿真器外，还存在大量计算机生成的自主运动的虚拟武器平台。以直升机为研究对象，考虑直升机作战环境与运用特点，对直升机在地形约束下的自主飞行进行了仿真。应用结果表明，利用此方法可以在虚拟战场环境中实现虚拟直升机的逼真运动。