[1] 胡飞,宋燕平,郑士昆,等. 空间构架式可展天线研究进展与展望[J]. 宇航学报,2018,39(2):111-120. HU Fei,SONG Yanping,ZHENG Shikun,et al. Advances and trends in space truss deployable antennae[J]. Journal of Astronautics,2018,39(2):111-120. [2] 陈向阳,关富玲. 六棱柱单元可展抛物面天线结构设计[J]. 宇航学报,2001,22(1):75-78. CHEN Xiangyang,GUAN Fuling. A large deployable hexapod paraboloid antenna[J]. Journal of Astronautics,2001,22(1):75-78. [3] 刘文兰,许允斗,姚建涛,等. 3R-3URU可展单元机构及其在构架式可展天线中的应用[J]. 航空学报,2017,38(11):318-328. LIU Wenlan,XU Yundou,YAO Jiantao,et al. Deployable unit 3R-3URU and its application in deployable truss antenna[J]. Acta Aeronautica et Astronautica Sinica,2017,38(11):318-328. [4] 史创,郭宏伟,刘荣强,等. 双层环形可展开天线机构构型优选及结构设计[J]. 宇航学报,2016,37(7):869-878. SHI Chuang,GUO Hongwei,LIU Rongqiang,et al. Configuration optimization and structure design of the double-layer hoop deployable antenna mechanism[J]. Journal of Astronautics,2016,37(7):869-878. [5] 熊天齐. 可展结构理论分析与研究[D]. 上海:同济大学,2006. XIONG Tianqi. The theoretical analysis and study of deployable structure[D]. Shanghai:Tongji University,2006. [6] LUO Zirong,SHANG Jianzhong,WEI G,et al. A reconfigurable hybrid wheel-track mobile robot based on Watt II six-bar linkage[J]. Mechanism and Machine Theory,2018,128:16-32. [7] LU Shengnan,ZLATANOV D,DING Xilun,et al. A new family of deployable mechanisms based on the Hoekens linkage[J]. Mechanism and Machine Theory,2014,73:130-153. [8] 张武翔,杨毅,罗均,等. 多环闭链可展机构尺寸调整方法[J]. 机械工程学报,2015,51(19):11-20. ZHANG Wuxiang,YANG Yi,LUO Jun,et al. Size adjustment of multi-closed-loop deployable mechanisms[J]. Journal of Mechanical Engineering. 2015,51(19):11-20. [9] 畅博彦,李文启,金国光,等. 精确直线可展机构及其动力学分析[J]. 中国机械工程,2018,29(11):1303-1309,1315. CHANG Boyan,LI Wenqi,JIN Guoguang,et al. Accurate straight-line deployable mechanism and its dynamics analysis[J]. China Mechanical Engineering,2018,29(11):1303-1309,1315. [10] 孙宏图,袁茹,王三民. 正方形可展机构的运动学与动力学特性研究[J]. 西北工业大学学报,2013,31(4):620-623. SUN Hongtu, YUAN Ru,WANG Sanmin. Kinematics and dynamics characteristics of square developable structure[J]. Journal of Northwestern Polytechnical University,2013,31(4):620-623. [11] DING Xilun,YANG Yi,DAI Jiansheng. Design and kinematic analysis of a novel prism deployable mechanism[J]. Mechanism and Machine Theory, 2013,63:35-49. [12] 杨癸庚,杨东武,杜敬利,等. 一种基于力密度的网状可展开天线索网结构初始形态设计方法[J]. 机械工程学报,2016,52(11):34-41. YANG Guigeng,YANG Dongwu,DU Jingli,et al. Method for deployable mesh antenna cable network structures' form-finding design based on force density[J]. Journal of Mechanical Engineering,2016,52(11):34-41. [13] 赵孟良,吴开成,关富玲. 空间可展桁架结构动力学分析[J]. 浙江大学学报,2005(11):1669-1674. ZHAO Mengliang,WU Kaicheng,GUAN Fuling. Dynamic analysis of deployable space truss structures[J]. Journal of Zhejiang University,2005(11):1669-1674. [14] 高慧芳,刘婧芳,余跃庆. 一种单自由度对称可展耦合机构的设计[J]. 机械工程学报,2018,54(5):62-73. GAO Huifang,LIU Jingfang,YU Yueqing. Design of a 1-DOF symmetrical deployable coupled mechanism[J]. Journal of Mechanical Engineering,2018,54(5):62-73. [15] SHI Chuang,GUO Hongwei,ZHENG Zhigang,et al. Conceptual configuration synthesis and topology structure analysis of double-layer hoop deployable antenna unit[J]. Mechanism and Machine Theory,2018,129:232-260. [16] SUN Yuantao,WANG Sanmin,MILLS J K,et al. Kinematics and dynamics of deployable structures with scissor-like-elements based on screw theory[J]. Chinese Journal of Mechanical Engineering,2014,27(4):655-662. [17] 王从思,韩如冰,王伟,等. 星载可展开有源相控阵天线结构的研究进展[J]. 机械工程学报,2016,52(5):107-123. WANG Congsi,HAN Rubing,WANG Wei,et al. Development of spaceborne deployable active phased array antennas[J]. Journal of Mechanical Engineering. 2016,52(5):107-123. [18] LIU Zhiquan,QIU Hui,LI Xiao,et al. Review of large spacecraft deployable membrane antenna structures[J]. Chinese Journal of Mechanical Engineering,2017,30(6):1447-1459. [19] 杨飞,陶建国,邓宗全,等. 六轮探测车多约束四边形悬架的仿马折展研究[J]. 机械工程学报,2014,50(5):1-9. YANG Fei,TAO Jianguo,DENG Zongquan,et al. Folded-deployable study of six-wheeled rover multiple constraints quadrilateral suspension inspired by the horse[J]. Journal of Mechanical Engineering,2014,50(5):1-9. [20] 杨名远,马家耀,李建民,等. 基于厚板折纸理论的微创手术钳[J]. 机械工程学报,2018,54(17):36-45. YANG Mingyuan,MA Jiayao,LI Jianmin,et al. Thick-panel origami inspired forceps for minimally invasive surgery[J]. Journal of Mechanical Engineering,2018,54(17):36-45. [21] LIU Sicong,LU Guoxing,CHEN Yan,et al. Deformation of the Miura-ori patterned sheet[J]. International Journal of Mechanical Sciences,2015,99:130-142. [22] XIANG X M,LU G,RUAN D,et al. Large deformation of an arc-Miura structure under quasi-static load[J]. Composite Structures,2017,182:209-222. [23] MA Jiayao,HOU Degao,CHEN Yan,et al. Quasi-static axial crushing of thin-walled tubes with a kite-shape rigid origami pattern:Numerical simulation[J]. Thin-Walled Structures,2016,100:38-47. |