[1] ELVERUM J.Liquid propellant rocket engine coaxial injector:US,3699772[P].1972-102-4.
[2] CASIANO M J, HULKA J R, YANG V.Liquid-propellant rocket engine throttling:a comprehensive review[R].AIAA 2009-5135.
[3] DRESSLER G A, BAUER J M.TRW pintle engine heritage and performance characteristics[R].AIAA 2000-3871.
[4] ELVERUM G, STAUDHAMMER J P, MILLER J, et al.The descent engine for the lunar module[R].AIAA 1967-521.
[5] 刘昌波.针栓式喷注器雾化特性多尺度仿真研究[D].西安:中国航天科技集团公司第六研究院第十一研究所, 2014.
[6] SHIEBER K, RUPERT R C.Assurance of service life of the MIRA 150A varible thrust rocket engine[R].AIAA 1965-608.
[7] BOYD B, JOHNSON R, SMITH T.Application of the MIRA 150A variable thrust rocket engine to mannedlunar exploration flying systems[C]//3rd Propulsion Joint Specialist Conference.Washington, DC, USA.Reston, Virigina:AIAA, 1967.
[8] GILROY R,SACKHEIM R.The lunar module descent engine—a historical perspective[R].AIAA 1989-2385.
[9] DRESSLER G A.Summary of deep throttling rocket engines with emphasis on apollo LMDE[R].AIAA 2006-5220.
[10] CASIANO M J, HULKA J R, YANG V.Liquid-propellant rocket engine throttling:A comprehensive review[R].AIAA 2009-5135.
[11] HARDGROVE J, KRIEG H JR.High performance throttling and pulsing rocket engine[C]//20th Joint Propulsion Conference.Cincinnati, OH, USA.Reston, Virigina:AIAA, 1984.
[12] DRESSLER G A, STODDARD F J, GAVITT K R, et al.Test results from a simple, low-cost, pressure-fed liquid hydrogen/liquid oxygen rocket combustor[C]//JANNAF Propulsion Meeting.Monterey:AIAA,1993.
[13] MUELLER T, DRESSLER G.TRW 40 klbf LOX/RP-1 low cost pintle engine test results[R].AIAA 2000-3863.
[14] 安鹏, 姚世强, 王京丽, 等.针栓式喷注器的特点及设计方法[J].导弹与航天运载技术, 2016(3):50-54.
[15] TR-312-100MN high performance dual mode liquid apogee Engine[EB/OL].[2013-12-30].http://www.northropgrum man.com/Capabilities/PropulsionProductsandServices/Documents/TR-312MN_DMLAE.pdf.
[16] TR-312-100YN high performance dual mode liquid apogee engine[EB/OL].[2013-12-30].http://www.northrop-grumman.com/Capabilities/Propulsion Productsand Services/Documents/TR-312YN_DMLAE.pdf.
[17] CAPOZZOLI P, INSPRUCKER J, SHOTWELL G.The Falcon 9:A new EELV-class man-rated launch vehicle[C]//58th International Astronautical Congress.Hyderabad:IAC, 2007.
[18] BJELDE B, CAPOZZOLI P, SHOTWELL G.ThespaceX falcon 1 launch vehicle flight 3 results, future developments and falcon 9 evolution[C]//59th International Astronautical Congress.Glasgow, United Kingdom:IAC, 2008.
[19] DINARDI A, CAPOZZOLI P, SHOTWELL G.Lowcost launch opportunities provided by falcon family of launch vehicle[C]//The fourth Asian Space Conference 2008.Taibei, Taiwan:[s.n.],2008.
[20] 旷武岳.变推力液体火箭发动机的发展[C]//中国宇航学会液体火箭推进委员会第五届学术会议.西安:中国宇航学会,1990.
[20] 李进贤, 岳春国, 唐金兰, 等.变推力液体火箭发动机技术现状与发展探索[C]//中国宇航学会深空探测技术专业委员会第三届学术会议论文集.西安:中国宇航学会,2006.
[21] 章荣军, 林革, 李福云.变推力液体火箭发动机技术研究[C]//第五届液体火箭推进技术发展研讨会.三亚:中国宇航学会,2005.
[21] 李进贤, 岳春国, 唐金兰, 等.变推力液体火箭发动机技术现状与发展探索[C]//中国宇航学会深空探测技术专业委员会第三届学术会议论文集.西安:中国宇航学会,2006.
[22] 雷娟萍, 兰晓辉, 章荣军, 等.嫦娥三号探测器7500N变推力发动机研制[J].中国科学(技术科学), 2014, 44(6):569-575.
[23] 皮茨D,西索姆L.传热学[M].葛新石,译.北京:科学出版社, 2002.
[24] 刘国球.液体火箭发动机原理[M].北京:中国宇航出版社, 1993.