学术成果
一、科技成果奖(2018-2025)
[61] 陈禛怡(第一完成人),中国发明创业奖创新奖:液体火箭**设计理论及**评估技术,2025.
[60] 陈禛怡(第一完成人),中国航天科技集团研究院院科技成果二等奖,XX-100***发动机减重技术研究,2018.
[59] 陈禛怡(发动机总体设计及健康管理),国家科学技术进步一等奖:120吨火箭液氧煤油发动机项目,2018。
[58] 陈禛怡(核心完成人),中国航天科技集团研究院科学技术奖一等奖,新一代XX-7火箭***发动机研制,2019。
二、2021~至今科研成果
[57] Yaan Sun,Zhenyi Chen,Yanyang Zi,Jianwei Jin. A new approach with anti-negative transfer properties: component domain adaptation adversarial network[J]. IEEE Transactions on Instrumentation & Measurement, 2025.
[56] Zhenyi Chen*,Wenhao Zhang,Qi Gao,Jianshu Yin,Xuebin Bu,Yanyang Zi. A Dynamic Fusion of Fast-varying with Slow-varying Signals and Application to Health Assessment of Aerospace Engine. IEEE Transactions on Instrumentation & Measurement, 2025.
[55] Jianshu Yin,Zhenyi Chen*,Jin Chen,Lv Jin,Yanyang Zi. Velocity Guided Chirplet Transform[J]. IEEE Transactions on Industrial Electronics ,2025.
[54] Tianyu Kou, Zhenyi Chen*, Member, IEEE, Zhenning Huang, Jing Xu, Sen Zhang, and Yanyang Zi. A Regulable Amplitude Second-order Synchrosqueezing Transform and Application to Health Evaluation of Aerospace Engines[J]. IEEE Transactions on Instrumentation & Measurement, 2025.
[53] Jin Chen, Jianshu Yin, Zhenyi Chen*, Yanyang Zi, Lu Jin, Shunjin Lv. A Multiparameter Adaptive Threshold Real-time Method and Application to Health monitoring of Aerospace Engine[J]. IEEE Transactions on Instrumentation & Measurement, 2025.
[52] 第二完成人:国家标准:金属波纹管性能测试方法,T/CIET 905—2024;
[51] 第三完成人:国家标准:金属波纹管制造工艺规范,T/CIET 843—2024
[50] Zhang zhenzhen , Zhenyi Chen *, Hui Chen. Optimizing coupled fault diagnosis in liquid rocket engines via distributed robust multi-model Kalman filter[J], DOI 10.1088/1361-6501/ad98ad,Measurement Science and Technology,2024.
[49] Yuhao Zhao, Zhenyi Chen *, Yanyang Zi *, Mingquan Zhang, Tao Tang. Dynamic Effect Analysis of Cryogenic Solid-Lubricated Ball Bearings with Geometrical-Frictional Defects[J].Lubricants 2024, 12(3), 84; https://doi.org/10.3390/lubricants12030084.
[48] Jin Chen, Zhenyi Chen*, Xiaoguang Zhang,Yanyang Zi, Yang Chen,Zhen Shi.A Fractional Exponential Power Bistable Stochastic Resonance Method for Rolling Bearing Weak Features Extraction[J]. DOI: 10.1109/TIM.2024.3369151, IEEE Transactions on Instrumentation & Measurement, 2024.
[47] Tao Tang, Yu Wang, Zhenyi Chen*, Shuai Wang Mingquan Zhang. Zhang. Study on rubbing characteristics of blade-casing model considering transverse cracks, Journal of Sound and Vibration,2023, 117928, (SCI, https://doi.org/10.1016/jjsv.2023.117928)
[46]Zhao Y, Zi Y, Chen Z, et al. Effects of Early Wear on Dynamic Characteristics of Cryogenic Ball Bearings [C]// Lubrication, Maintenance and Tribotechnology (LUBMAT2023), Preston, UK, 2023.
[45]Zhao Y, Zi Y, Chen Z*, et al. Dynamic Modelling of Solid-Lubricated Ball Bearings Based on the Spinning Traction Curve of Ball [C]// The 2nd International Conference on Mechanical System Dynamics (ICMSD2023), Beijing, 2024. (EI)
[44] Tao Tang, Yu Wang, Shuai Wang, Shuilong He, Zhenyi Chen, Mingquan Zhang. Rubbing characteristics of a rotating blade withcracks[J]. Journal of Sound and Vibration, 2023, 117927, (SCI, https://doi.org/10.1016/jjsv.2023.117927)
[43] Zhenyi Chen, Yanyang Zi, Zhongmin Xiao, etal. A Bilateral Second-order Synchrosqueezing Transform and Application to Vibration Monitoring of Aerospace Engine [J]. IEEE Transactions on Instrumentation and Measurement, 2021, (SCI, 中科院I区,DOI 10.1109/TIM.2021.3054010,影响因子5.332)
[42] Zhenyi Chen, Yanyang Zi, Ping Li, et al. An energy time-convexity second-order synchrosqueezing transform and application in weak fault diagnosis of rolling bearings in an aerospace engine [J]. Measurement Science and Technology, 2020, vol.31: 125105. (SCI, DOI:10.1088/1361-6501/ab983f)
[41] Rujie Hou,Zhenyi Chen*,Jingong Chen. Imbalanced Fault Identification via Embedding-augmented Gaussian Prototype Network with Meta-Learning Perspective. Measurement Science and Technology, (SCI, DOI:10.1088/1361-6501/ac3c1d)
[40] Zhenyi Chen, Yanyang Zi, Hui Chen, Lu Jin. A Time-tracking conditional random field and Application to health evaluation of Aerospace Engines. IEEE Transactions on Instrumentation and Measurement, 2022.
[39] Zhao Y, Ma Z, Zi Y, Chen Z. Skidding and Spinning Investigation for Dry-lubricated Angular Contact Ball Bearing under Combined Loads. Friction 2022. https://doi.org/10.1007/s40544-022-0703-9.
[38] Zhao Y, Zi Y, Chen Z, Zhang M, Zhu Y, Yin J. Power loss investigation of ball bearings considering rolling-sliding contacts. International Journal of Mechanical Sciences 2023;250:108318. https://doi.org/10.1016/j.ijmecsci.2023.108318.
[37] Zhenyi Chen, Yushan Gao, Yanyang Zi, Zhongmin Xiao, Chen Li. A heterogeneous fusion for multi-varying signals and application to health evaluation of Aerospace Engine [J]. IEEE Transactions on Instrumentation and Measurement, 2023. (中科院I区,DOI: 10.1109/TIM.2023.3267373)
[36] Z. Shi, J. Chen, Y. Zi and Z. Chen, "DecouplingNet: A Stable Knowledge Distillation Decoupling Net for Fault Detection of Rotating Machines Under Varying Speeds," IEEE Transactions on Neural Networks and Learning Systems. 2023. DOI: 10.1109/TNNLS.2023.3258748.
[35] Tao Tang, Yu Wang, Shuai Wang, Zhenyi Chen, Mingquan Zhang. Rub-impact dynamic analysis of a shaft-blade-disk model under the coupling effect. Aerospace Science and Technology,2023 (Under review).
[34] Shi Z, Chen Z, Zi Y, et al. A Novel Multitask Adversarial Network via Redundant Lifting for Multi-Component Intelligent Fault Detection under Sharp Speed Variation [J]. IEEE Transactions on Instrumentation and Measurement, 2021, PP(99):1-1;
[33] 张文浩,陈禛怡,邢溥驿,张梓文,寇天宇。国家计算机软件:增材制造多源异构数据管理系统,2025.
[32] 陈禛怡,张文浩,黄振宁,王向东,许迪帅,张森。一种面向液体火箭发动机健康评估的动态信息融合方法,2025
[31] 陈禛怡,高琦,张明泉,张文浩,张梓文,史敬瑶,訾艳阳。国家发明专利:液体火箭涡轮泵全工况多故障模拟方法及相关装置,2025107709479
[30] 陈禛怡,寇天宇,邢溥驿,钟文华,张明泉,何尚龙。国家发明专利:用于液体火箭发动机的自适应微弱特征提取方法及相关装置,2025101849362
[29] 陈禛怡,张文浩,寇天宇,高琦,黄振宁,胡志强。一种金属软管的优化设计方法及相关装置,CN202510373915.5
[28] 陈禛怡, 陈文博, 高玉闪,王珺,訾艳阳,张丰登,廖星樾,杨少聪。国家发明专利:基于协同降噪和特征增强的涡轮泵轴承微弱故障提取方法,CN202410655519.7
[27] 訾艳阳,吴尚子,张明泉,陈禛怡。国家发明专利:金属增材制造样件微观组织的分析方法、系统、设备及介质 ,CN202411973237.8
[26] 陈禛怡,王君,张明泉,王珺,刘子俊,訾艳阳。国家发明专利:一种涡轮泵转子系统多故障模拟实验装置,ZL202410378622.1
[25] 陈禛怡, 夏伟钧, 訾艳阳, 吴金星, 张玉琴, 寇天宇. 国家发明专利:一种轴承故障诊断方法、系统、设备及介质, ZL202410409737.2
[24] 陈禛怡, 张丰登, 付树洪等,国家发明专利:一种航天地面测控装备传动机构健康评估及早期损伤预警方法、系统、设备及介质。ZL202410463442.3
[23] 陈禛怡,陈金, 訾艳阳, 高玉闪, 刘小勇, 王珺。国家发明专利:自适应非饱和分数指数幂随机共振轴承微弱故障特征提取方法,CN202410378596.2
[22] 陈禛怡,李琛,訾艳阳,许开富,金路. 国家发明专利:基于非凸优化低秩稀疏分解的轴承故障诊断方法及系统, ZL202310730231.7
[21] 陈禛怡, 朱远航, 訾艳阳, 杜飞平, 陈晖, 石振, 赵宇豪。国家发明专利:基于最小非概率熵解卷积的涡轮泵滚动轴承故障诊断方法,CN202310448464.8
[20] 陈禛怡, 夏伟钧, 訾艳阳, 李爱民,赵剑。国家发明专利:用于强变转速下滚动轴承故障诊断的无键相阶次跟踪方法. ZL202310649672.4
[19] 陈禛怡, 訾艳阳。国家发明专利:一种承高压的多方向位移及偏差补偿装置,CN202310761846.6
[18] 陈禛怡,朱远航,訾艳阳,杜飞平,陈晖,石振,赵宇豪。国家发明专利:基于最小非概率熵解卷积的涡轮泵滚动轴承故障诊断方法,2023104484648
[17] 陈禛怡,李琛,訾艳阳,许开富,金路.国家发明专利:一种基于非凸优化低秩稀疏分解的轴承故障诊断方法,ZL202310730231.7
[16] 陈禛怡,訾艳阳,吴尚子,尹建树,赵宇豪。国家发明专利:一种用于液体火箭发动机全系统健康评估的决策级融合方法,ZL202210762421.2.
[15] 陈禛怡,訾艳阳,金路,张晓光,陈晖,国家发明专利:一种缓变与速变信号时间跟踪特征级融合方法,ZL 202210762563.9.
[14] 李琛,陈禛怡,訾艳阳。国家计算机软件著作权:液体火箭发动机涡轮泵故障诊断及健康管理软件,2022SR1043948
[13] 訾艳阳, 赵宇豪, 陈禛怡. 国家发明专利:综合拟静力学与动力学的轴承摩擦动力学响应分析方法. ZL202211386657.7
三、2015-2020年科研成果
[12] 陈禛怡(第一作者),XX-100K发动机姿态控制研究,中央电视台《大国重器》第二期,2018.1。
[11] 陈禛怡(第一作者),120吨火箭发动机飞行控制仿真,中央电视台《创新中国》,2018.3。
[10] 陈禛怡等(第三编者),新一代运载火箭发动机故障启示录,中国航天科技集团,2016.5
[9] 陈禛怡等(第一作者),碟形密封结构技术标准,中国航天科技集团(QDa2018-XX),2018.3
[8] 陈禛怡等(第一作者),XX-6A火箭芯一级发动机总体技术方案,中国航天科技集团,2016.5
[7] 陈禛怡等(第一作者),碟形密封在钢-铝法兰连接结构中的密封性能研究,航天六院密封技术会议,2017.11
[6] Zhenyi Chen, Qingfeng Meng, Peigong Wang. A New Algorithm for the Identification of Oil-film Coefficients of Sliding Bearings. //Condition Monitoring and Diagnostic Engineering Management, Norway, 2011.5.30.
[5] Peigong Wang, Qingfeng Meng, Zhenyi Chen. Prediction of Machine Tool Machining Accuracy Using Support Vector Machine. //Condition Monitoring and Diagnostic Engineering Management, Norway, 2011.5.30.
[4] Tao Geng, Qingfeng Meng, Zhenyi Chen. Ultrasonic Monitoring of Lubricating Conditions of Hydrodynamic Bearing. //DAMAS 2011 , 2011.7.13. (EI:20113514273840)
[3] 孟庆丰,陈禛怡,国家发明专利:一种滑动轴承润滑膜动刚度测试的方法,ZL201010583181.7,2011。
[2] 孟庆丰,陈禛怡,国家发明专利:一种动特性测试系统标定的装置与新方法,2011.10。
[1] 孟庆丰,陈禛怡,国家计算机软件著作权登记证书:滑动轴承润滑膜动刚度测试软件,登记号:2010SR069798。
