一、科技成果奖（2018-2025）

[66] 陈禛怡（第一完成人,1/6），中国发明创业奖创新奖：液体火箭**设计理论及**评估技术，2025.

[65] 陈禛怡（第一完成人,1/8），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.

[64] 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。

[63] 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

[62] Zhening Huang, Gangqiang Xu, Zhenyi Chen*, Beibei Jia, Yanyang Zi. A Dynamic Feature-tracking Method and Application to On-line diagnosis of Aerospace Engines[J], Measurement, 2026.

[61] Jin Chen, Zhenyi Chen*, Yanyang Zi, Hui Chen. Signal Enhancement Mechanism of Adjustable Asymmetric Tristable Stochastic Resonance and Application to Fault Diagnosis of Aerospace Engines[J]. Measurement, 2026.

[60] Qi Gao, Dishuai Xu, Zhenyi Chen*，Beibei Jia, Mingquan Zhang, Yanyang Zi, Minglei Zhong. An Adaptive-Embedding Singular Spectrum Method and Health Monitoring of Liquid Aerospace Engines[J]. IEEE Transactions on Instrumentation & Measurement, 2026.

[59] 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, 2026.

[58] Yaan Sun，Zhenyi Chen，Yanyang Zi，Jianwei Jin. A new approach with anti-negative transfer properties: component domain adaptation adversarial network[J](Accepted). IEEE Transactions on Instrumentation & Measurement,  2025.

[57] 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, DOI: 10.1109/TIM.2026.3690913,  2025.

[56] Jianshu Yin，Zhenyi Chen*，Jin Chen，Lu Jin，Yanyang Zi. Velocity Guided Chirplet Transform[J]. IEEE Transactions on Instrumentation & Measurement, 10.1109/TIM.2025.3650244,  VOL. 75(6501015), 2026.

[55] 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, 10.1109/TIM.2026.3667283 ,  VOL. 75(3508413), 2025.

[54] 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 and Measurement, 10.1109/TIM.2026.3654693，VOL. 75(3503616),  2026.

[53] 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.

[52] 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.

[51] 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.

[50]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)

[49] 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)

[48]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.

[47] 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)

[46] 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.

[45] 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)

[44] 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.

[43] 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.

[42] Rujie Hou，Zhenyi Chen*，Jingong Chen. Imbalanced Fault Identification via Embedding-augmented Gaussian Prototype Network with Meta-Learning Perspective. Measurement Science and Technology, 2022, (SCI, DOI:10.1088/1361-6501/ac3c1d).

[41] 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.

[40] 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；

[39] 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,  DOI 10.1109/TIM.2021.3054010，影响因子5.332)

[38] 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)

[37] 陈禛怡，刘嘉俊，陈金，陈思宇，訾艳阳，包嘉杨。国家发明专利：一种可调非对称三稳态随机共振流体驱动旋转机械故障诊断方法[P]，2026.

[36] 陈禛怡，庞长周，高琦，吴家宝，訾艳阳，包嘉杨。国家发明专利：一种用于液体火箭发动机在线快速健康监测的自适应嵌入式奇异谱方法[P].

[35] 许迪帅，孙亚安，庞长周，陈禛怡。液体火箭氧泵轴承寿命评估软件，国家计算机软件著作权，2026SR0382152，2025.

[34] 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，2025SR159289，2025.

[33] 陈禛怡，张文浩，黄振宁，王向东，许迪帅，张森。种用于液体火箭发动机系统级健康判别的快变与慢变信号动态融合方法、系统、设备和介质，CN202511237836.8.

[32] 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，CN202510770947.9.

[31] 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，CN202510184936.2.

[30] 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，ZL 2025 1 0373915.5。

[29] 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 

[28] 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

[27] 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

[26] 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

[25] 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

[24] 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

[23] 第二完成人：国家标准：金属波纹管性能测试方法，T/CIET 905—2024

[22] 第三完成人：国家标准：金属波纹管制造工艺规范，T/CIET 843—2024

[21] 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

[20] 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

[19] 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

[18] 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，ZL 202310761846.6.

[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。