国外卫星推进技术发展现状与未来20年发展趋势. 魏延明 航天制造技术, 2011. 36 citations(CNKI)[2022-2-24] CNKI citations: 36[2022-2-24]![国外卫星推进技术发展现状与未来20年发展趋势 [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper abstract bibtex 新形势下航天技术的发展对推进技术提出了更高的要求,无论在技术的广度和深度上都是前所未有的,如15年以上静止轨道卫星和8年以上低轨道卫星对高性能长寿命推进系统的要求、电推进技术的应用、微小卫星轨道保持的应用和深空探测对先进推进技术的依赖等。本文从先进化学推进技术、电推进技术、微推进技术和新概念推进技术4个方面分析了国外卫星推进技术的发展状况,总结了未来20年卫星推进技术的发展趋势,给出了对我国今后技术发展的启示。
@article{_20_2011,
title = {国外卫星推进技术发展现状与未来20年发展趋势},
issn = {1674-5108},
url = {https://kns.cnki.net/kcms/detail/detail.aspx?filename=HTGY201102004&dbcode=CJFD&dbname=CJFD2011&v=aaiSYD2CjnkKVKIxlvUk21X5z-F3oDhQrxFRf94Ph3_kkhEPFYvXliHAZHKff2BZ},
abstract = {新形势下航天技术的发展对推进技术提出了更高的要求,无论在技术的广度和深度上都是前所未有的,如15年以上静止轨道卫星和8年以上低轨道卫星对高性能长寿命推进系统的要求、电推进技术的应用、微小卫星轨道保持的应用和深空探测对先进推进技术的依赖等。本文从先进化学推进技术、电推进技术、微推进技术和新概念推进技术4个方面分析了国外卫星推进技术的发展状况,总结了未来20年卫星推进技术的发展趋势,给出了对我国今后技术发展的启示。},
language = {zh-CN},
number = {02},
urldate = {2022-02-24},
journal = {航天制造技术},
author = {{魏延明}},
year = {2011},
note = {36 citations(CNKI)[2022-2-24]
CNKI citations: 36[2022-2-24]},
keywords = {developing direction, electric propulsion, micro-propulsion, new concept propulsion, satellite propulsion system, thruster, ⛔ No DOI found, 卫星推进, 发展趋势, 微推进, 推力器, 新概念推进, 电推进},
pages = {7--12},
}
Downloads: 0
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