636                                    摩擦学学报（中英文）                                        第 45 卷

                 doi: 10.1007/s42114-018-0023-8.                    Technical  Exchange  Conference  of  China  Aerospace  Third
            [115]   Sang  Yuan.  Study  on  the  dynamic  auxiliary  seal  ring  of  dry  gas  Professional Information Network and the 2021 High-level Forum
                 seal[D]. Beijing: Beijing University of Chemical Technology, 2007  on Aero Engine Technology Development (Volume II), Chengdu,
                 (in Chinese) [桑园. 干气密封装置动态辅助密封圈性能研究[D].            2022 (in Chinese) 童悦, 李晓梦, 林啸, 等. O形圈高压气体密封
                 北京: 北京化工大学, 2007].                                 摩擦特性试验研究[C]//第六届空天动力联合会议暨中国航天第
            [116]   Kang Jiaming. Study on performance of auxiliary sealing ring for  三专业信息网第四十二届技术交流会暨2021航空发动机技术发
                 high  pressure  dry  gas  seal[D].  Kunming:  Kunming  University  of  展高层论坛论文集(第二册). 成都, 2022.
                 Science and Technology, 2018 (in Chinese) [康家明. 高压干气密  [121]   Chen  Yao,  Zhang  Guoyuan,  Zhao  Weigang,  et  al.  Study  on  the
                 封用辅助密封圈性能研究[D]. 昆明: 昆明理工大学, 2018].                 nonlinear  transient  response  for  the  non-contact  mechanical  face
            [117]   Liu  Dengyu.  Sealing  performance  and  wear  analysis  of  spring  seal[J].  Journal  of  Vibroengineering,  2017,  19(2):  737–750.  doi:
                 energized  seal  in  wide  temperature  range[D].  Beijing:  Beijing  10.21595/jve.2016.16906.
                 University of Chemical Technology, 2024 (in Chinese) [刘登宇.  [122]   Xu Lushuai, Wu Jiuhui, Wang Yunlei, et al. Transient response and
                 宽温域弹簧蓄能密封圈密封性能及磨损分析[D]. 北京: 北京化                    rub-impact  phenomenon  of  liquid  lubricated  non-contacting
                 工大学, 2024].                                        mechanical seals during external pressure fluctuation[J]. Journal of
            [118]   Wu Jie, Chen Zhi, Zhao Peng, et al. Working performance of push  the  Brazilian  Society  of  Mechanical  Sciences  and  Engineering,
                 ring’s  spring  energized  seal[J].  Tribology,  2021,  41(4):  532–542  2020, 42(8): 428. doi: 10.1007/s40430-020-02485-1.
                 (in Chinese) [吴杰, 陈志, 赵鹏, 等. 干气密封推环用弹簧蓄能密     [123]   Iwan  W  D.  A  distributed-element  model  for  hysteresis  and  its
                 封圈工作特性研究[J]. 摩擦学学报, 2021, 41(4): 532–542]. doi:    steady-state  dynamic  response[J].  Journal  of  Applied  Mechanics,
                 10.16078/j.tribology.2020152.                      1966, 33(4): 893–900. doi: 10.1115/1.3625199.
            [119]   Gao  Tianyan,  Zhang  Kaisen,  Ye  Jiaxin,  et  al.  Effect  of  interface  [124]   Segalman D J. A four-parameter iwan model for lap-type joints[J].
                 wettability and roughness on sliding friction behavior of PDMS[J].  Journal of Applied Mechanics, 2005, 72(5): 752–760. doi: 10.1115/
                 Tribology, 2023, 43(7): 750–757 (in Chinese) [高天燕, 张开森, 叶  1.1989354.
                 家鑫, 等. 界面润湿性和粗糙度对橡胶滑动摩擦行为的影响[J].              [125]   Zhang  Xiangmeng,  Wang  Benli,  Wei  Hongtao.  Calculation  of
                 摩 擦 学 学 报 ,  2023,  43(7):  750–757].  doi:  10.16078/j.tribology.  nonlinear restoring forces and energy dissipation of iwan model[J].
                 2022087.                                           Engineering Mechanics, 2012, 29(11): 33–39 (in Chinese) [张相
            [120]   Tong Yue, Li Xiaomeng, Lin Xiao, et al. Experimental study on  盟, 王本利, 卫洪涛. Iwan模型非线性恢复力及能量耗散计算研
                 friction  characteristics  of  O-ring  high  pressure  gas  seals  [C]//6th  究[J]. 工程力学, 2012, 29(11): 33–39]. doi: 10.6052/j.issn.1000-
                 Joint  Conference  on  Aerospace  Power,  Proceedings  of  the  42nd  4750.2011.03.0162.