(一)代表性学术论文
[1] Kaiwen Deng, Xinlin Qing, Florian Page, Yishou Wang*. Effect of lubricant properties on the thermal behavior of aeroengine mainshaft ball bearings. Tribology International,2026, 216:111485.
[2] Kaiwen Deng, Xinlin Qing, Florian Pap and Yishou Wang*. Modeling of Oil-Film Traction Behavior and Lubricant Selection for Aeroengine Mainshaft Ball Bearings.Lubricants. 2026, 14, 33.
[3] Minghua Wang, Yi Zhang, Di Wu, Yue Wang*, Xinlin Qing, Yishou Wang*. Impact localization in aircraft composite structures using GWO-VMD and adaptive correlation thresholding. Aerospace Science and Technology.2026,173: 111777.
[4] Wang, Minghua; Yan, Yuxuan; Zhang, Weixuan; Zhang, Yi; Wu, Di; Wang, Yue; Qing, Xinlin, Wang Yishou*. An impact localization method for composite structures based on time series features and machine learning. Composite Structures, 2025, 367: 119242.
[5] He, Mengyue, Wang Minhua, Wu Di, Wang Yue, Qing XinLin, Wang Yishou*. CFRP composite fatigue damage pattern recognition using ultrasonic guided waves. Composite structures, 2025, 371: 119459.
[6] Guo Y, Zhang W, Li K, Wu D, Liu T, Zhang W*, Wang Y*. Sensing-actuating performance of flexible piezoelectric composites by component optimization. Extreme Materials,2025,1:27–41
[7] Zhang Weixuan, Guo Yanheng, Li Kecheng, Yin Jin, Wu Di, Wang Yishou*. An efficient computational model for the electromechanical performance of flexible piezoelectric composites based on a multi-scale approach. Composite Structures, 2025, 371: 119462.
[8] Zhang Weixuan, Guo Yanheng, Wang Minghua, Li Kecheng, Yin Jin, Wu Di, Wang Yishou*. Transferable vibration mapping model of flexible piezoelectric composites. International Journal of Mechanical Sciences, 2025, 297-298: 110354.
[9] Xiao Xiangwen, Zhang Weixuan, Wang Qing, Liu Yuan, Wang Yishou*. Intelligent Recognition Method for Ferrography Wear Debris Images Using Improved Mask R-CNN Methods. Lubricants, 2025, May, Volume 13, Issue 5: 208.
[10] Li Zehua, Xue Wendong, Yang Zhenhai, Huang Xin, Qing Xinlin, Wang Yishou*. Design of an integrated ultrasonic guided wave structural health monitoring system based on multi-channel high-speed synchronous acquisition. Measurement Science and Technology, 2025, April 30, 36(4): 045901
[11] Fei Wenjian, Zhang Shenming, Zhou Qifeng*, Liu Yuan, Wang Yishou*. EGTM Data-Driven Aero-Engine Washing Schedule Optimization Using Hybrid Prediction Model. IEEE Transactions on Reliability, IEEE Transactions on Reliability, 2025,74(4):5287-5298.
[12] Minghua Wang, Bowen Zhao, Yi Zhang, Di Wu, Yue Wang, Xinlin Qing, and Yishou Wang*. Impact Force Reconstruction in Composite Structures Using Wavelet Transform and Low-Frequency Response Components. IEEE Sensors Journal, 2025,25(7):11697-11709.
[13] Zhibin Han, Jianjian Zhu, Yifeng Xiong, Yishou Wang*. Diagnosis of gas path health states on a real flight data by convolutional neural network and dual-tree complex wavelet. Measurement, 2025,242:115792..
[14] Yuxuan Yan, Minghua Wang, Yi Zhang, Di Wu, Yue Wang , Xinlin Qing , and Yishou Wang*. A Low-Velocity Impact Localization Method for Composite Stiffened Plate Based on AIC and WPT. IEEE Sensors Journal,2024. .
[15] Zhihong Liang2] 莫李平; 卿新林; 王奕首; 刘凯伟; 王奕惟.一种基于航后数据的航空发动机整机剩余性能提取方法.申请号:ZL201911398282.4:申请日:2019.12.30. 授权公告日:2021-7-30.
[13] 王奕首,林霆威,吴迪恒,卿新林,孙虎. 一种滑油磨粒综合诊断探测器及磨粒在线监测和分析方法. 申请号:ZL 2020 1 0701842.5。申请公布日:2020-07-20。授权公告CN 111665175B,授权公告日:2021-04-23
[14] 王奕首,王庚, 卿新林,杨晓锋,孙虎. 多功能滑油磨粒收集薄膜及发动机磨损状态的诊断方法。申请号:ZL 2019103009161,申请日:2019.04.15, 申请公布号:CN110006656B, 授权公布日:2020.08.07
[15] 王奕首,吴迪恒,高甜,卿新林,孙虎. 同轴电容传感器及发动机滑油磨粒在线监测与诊断方法. 专利号:ZL 2019 1 0282282.1,申请日:2019.04.09, 授权公告号:CN 109959587B, 授权公布日:2020.05.15
[16] 王奕首,王庚,王悦,吴迪,卿新林,孙虎. 一种基于时间序列识别冲击区域的定位方法及系统,专利号:ZL 2020 1 0523854.3。申请日:2020.6.10,授权公告号:CN 111551634B, 授权公布日:2021.03.16
[17] 薛文东,杨梦娇,洪德明,王奕首,卿新林.一种主动式超声导波装置。专利号:ZL201911292036.0,申请日:2019.12.16;授权公告日:2021.08.31
[18] 王奕首,王宇航,卿新林,孙虎. 一种基于基准导波信号匹配的超声导波温度补偿方法。专利号:2017 1 0997193.6,申请日:2017.10.24; 授权公告号:CN107748208B,授权公告日:2019.7. 2
[19] 王奕首, 李煜坤,卿新林,孙虎. 压电陶瓷片传感器用于复合材料生命周期实时监测方法. 专利号:ZL 2017 1 0443291.5;申请日:2017.6.13;授权公告号:CN107037185B,授权公告日:2019.4.12
[20] 王奕首,孙磊,卿新林,孙虎.一种注塑模具斜顶机构监测的方法和装置.专利号:ZL201710680791.0,申请日:2017.8.10. 授权公告号:CN107478422B,授权公告日:2019.10.29.
[21] 王奕首,孙磊,卿新林,孙虎. 注塑模具斜顶机构与导向块的间距的监测装置及监测方法. 专利号:ZL 2018 1 0729315.3;申请日:2017.8.23;授权公告号:CN108303033B,授权公告日:2019.9.17.
主持国家自然科学基金项目4项(面上项目3项)、国防基础加强计划重点项目课题1项、国防基础科研计划重大项目课题2项、国家重大工程项目课题1项,空军装备预研项目1项、装发共性技术预研项目1项,国家重点研发项目子课题1项等科研项目15项。近五年代表性项目如下:
[1] 福厦泉国家自主创新示范区协同项目.福厦泉国家自主创新示范区航空高性能关节轴承形性调控与检测评价协同创新平台项目(No. 2025E3011);
[2] 国家自然科学基金项目:基于同轴旋转电容传感网络和微振动多功能薄膜的滑油磨粒综合监测方法及其在磨损诊断上应用(No.52575147),2026.01-2029.12;
[3] 上海宇航系统工程研究所“共底贮箱循环试验损伤监测与寿命评估系统”, 2025.6.30-2025.12.30。
[4] 厦门市科技局重大科技项目“长航时低成本无人机物流系统研制及沿海作业验证(编号:3502Z20241035)课题,2024.10-2026.10;
[5] 重庆长安汽车股份有限公司“基于弹性波原理被动安全控制系统开发”,2023.9.20-2025.3.20;
[6] 国防基础科研计划重大项目课题“面向极端服役环境和关键结构检测区域的传感网络集成设计与定量化诊断技术”,纵向项目,2023.1-2026.12;
[7] 重大工程专项课题“发动机叶片健康监测与间隙估算模型”,纵向项目,2023.8-2026.12;
[8] 装备发展部共性技术预研重点项目课题“智能复合材料减振设计与控制应用技术”,2022.10-2025.10;
[9] 国防基础加强计划重点项目课题“复杂载荷的多源传感与辨识技术研究”,2022.11-2026.11;
[10] 辽宁金晟科技股份有限公司:焊接结构损伤定量诊断方法研究,2022.6-2022.12;
[11] 国防基础科研计划重大项目课题“多元素传感网络配置优化和数据处理技术研究”,2020.1-2023.12;
[12] 国家自然科学基金面上项目:基于同轴旋转电容传感网络和微振动多功能薄膜的滑油磨粒综合监测方法及其在磨损诊断上应用(No.51975494),2020.01-2023.12;
1] 王奕首(1/10); 重大装备复合材料结构全生命周期健康监测关键技术与应用,福建省科学技术进步奖一等奖,2024年 (王奕首; 卿新林;孙虎;李卫彬;吴会强;曾志伟;伏喜斌;薛文东;刘琦牮;刘晓) .
[2] 王奕首(7/11),深海矿产资源智能混输关键技术及装备, 辽宁省科技进步奖一等奖,2025(邹丽,孙哲,郑皓,王磊,王凯,蒋玉峰,王奕首,毛桂廷,贾鹏,于宗冰,金国庆) .
[3] 王奕首(5/5),基于生物原理的优化理论与方法研究,教育部高等学校科学研究优秀成果奖(科学技术)自然科学奖一等奖,2021(魏小鹏,张强,滕弘飞,周东升,王奕首)
