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本文对捷联系统在垂直发射战术导弹中的工程应用问题作了较深入的探讨。这些问题包括如何使用弹体姿态信息,如何判别计算误差,采用怎样的初始对准方法以及如何描述动态特性等。 相似文献
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含纳米金属粉的推进剂点火实验及燃烧性能研究 总被引:11,自引:1,他引:11
利用CO2激光点火系统对含有纳米铝粉和纳米镍粉的AP/HTPB推进剂进行激光点火实验,测量了推进剂在不同激光功率和压强下的点火延迟时间,对推进剂的燃速、常压点火温度和爆热也进行了测量。同时,利用氧化还原滴定法测定燃烧残渣中活性铝含量。结果表明,纳米铝粉(n—Al)的点火阀值比普通铝粉(g-A1)的点火阀值小几个数量级,加入纳米铝粉可有效地缩短推进剂点火延迟时间。而在纳米镍粉为催化剂的协同作用下,推进剂燃速明显提高,点火延迟时间也大大减少,Al在推进剂燃烧过程中的燃烧效率得以提高,同时燃烧残渣中活性铝含量也明显降低。 相似文献
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The Science Advisory Group 《Space Science Reviews》1973,14(3-4):347-362
The requirements of systematic exploration of the outer solar system have been intensively studied by a Science Advisory Group (SAG) of consulting scientists for the National Aeronautics and Space Administration (NASA). Comets and Asteroids were excluded from this study, as a separate group is planning missions to these bodies. This paper and accompanying articles on specific related scientific subjects written by members of the SAG, summarize the findings and recommendations of this group. These recommendations should not be interpreted as official NASA policy. Following some general introductory remarks, a brief sketch is given of the development and current status of scientific missions to the inner planets by the U.S. and the U.S.S.R. With this perspective, the development of the U.S. program for investigation of the outer solar system is described. The scientific focus of outer solar system exploration has been studied in detail. The relationship of the outer planetary bodies to one another and to the inner planets, as parts in a unified solar system evolved from a primitive solar nebula, is emphasized. Deductions from outer solar system investigations regarding the conditions of the solar nebula at the time of planetary formation have been considered. Investigations have been proposed that are relevant to studies of the atmospheric structure and dynamics, internal structure of the planets, satellite composition and morphology, and planetary and interplanetary fields and energetic particles. The mission type and sequence required to conduct a systematic exploration of the outer solar system has been developed. Technological rationales for the suggested missions are discussed in general terms. The existing NASA program for outer solar system exploration is comprised of four missions:
- Pioneer 10 fly-by mission to Jupiter and beyond, currently underway, with launch on 3 March 1972;
- Pioneer G, intended for a similar mission with planned launch 2–22 April 1973; and
- Two Mariner Jupiter/Saturn fly-bys in 1977, with experiment selection scheduled for late 1972 and detailed engineering design during 1972–74.
- 1976 Pioneer Jupiter/Out-of-Ecliptic (One Mission)
- 1979 Mariner Jupiter/Uranus Fly-bys (Two Missions)
- 1979 Pioneer Entry Probe to Saturn 1980 Pioneer Entry Probe to Uranus via Saturn Fly-by (Three Missions)
- 1981/1982 Mariner Jupiter Orbiter (Two Missions).
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V. Génot C. Jacquey M. Bouchemit M. Gangloff A. Fedorov B. Lavraud N. André L. Broussillou C. Harvey E. Pallier E. Penou E. Budnik R. Hitier B. Cecconi F. Dériot D. Heulet J.-L. Pinçon 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2010
AMDA (Automated Multi-Dataset Analysis), a new data analysis service, recently opened at the French Plasma Physics Data Center (CDPP). AMDA is developed according to the Virtual Observatory paradigm: it is a web-based facility for on-line analyses of space physics. Data may come from its own local database as well as remote ones. This tool allows the user to perform classical manipulations such as data visualization, parameter computation and data extraction. AMDA also offers innovative functionalities such as event searches on the content of the data in either visual or automated ways, generation, use and management of time tables (event lists). The general functionalities of AMDA are presented in the context of Space Weather with example scientific use cases. 相似文献
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