代表期刊论文 :
近年来,累计发表学术论文70余篇,其中以第一/通讯作者累计发表SCI/EI收录论文30余篇,包括ESI高被引论文1篇,TOP期刊论文18篇,F5000论文奖获奖论文1篇,《物理学报》高被引论文1篇。一作/通讯论文如下:
2024年
[38] J Xu, D Xia, Z Lai*, G Chen, W Dai, J Wang, H Yang. Experimental study of vibration modes switching based triple frequency-up converting energy harvesting with pre-biased displacement. Smart Materials and Structures, 2024, 33: 025016. (大三区,IF=4.1)
[37] Y He, Z Qiao*, B Xie, S Ning, Z Li, A Kumar, Z Lai*. Two-stage benefits of internal and external noise to enhance early fault detection of machinery by exciting fractional SR. Chaos, Solitons and Fractals, 2024, 182: 114749. (大一区,IF=7.8)
[36] S Sun, X Su, X Chen, J Xu, Y Leng, H Bao, Y Yang*, Z Lai*. Design and performance of a novel magnetically induced penta-stable piezoelectric energy harvester. Smart Materials and Structures, 2024, 33: 025016. (大三区,IF=4.1)
[35] C Zhang, Z Lai*, Y Zhao, R Zhu*. Parametric study and multi-parameter optimization of generalized second-order tri-stable stochastic resonance system. Nonlinear Dynamics, 2024, 112, 2661-2681. (大二区Top,IF=5.6)
[34] Z Wang, S Fang, A Feng, M Wu, B Lin, R Shi, Z Qiao, D Yurchenko, Z Lai*. Dynamic analysis of a dielectric elastomer – based bistable system. Journal of Sound and Vibration, 2024, 572: 118183. (大二区,IF=4.7)
[33] C Zhang, Z Lai*, Z Tu, H Liu, Y Chen, R Zhu*. Stochastic resonance induced weak signal enhancement in a second-order tri-stable system with single-parameter adjusting. Applied Acoustics, 2024, 216: 109753. (大二区,IF=3.4)
2023年
[32] C Yang, Z Qiao*, R Zhu, X Xu, Z Lai*, S Zhu. An intelligent fault diagnosis method enhanced by noise injection for machinery. IEEE Transactions on Instrumentation & Measurement, 2023, 72: 2524011. (大二区Top,IF=5.6)
[31] S Fang, N Padar, M J Mirzaei, K Chen, Z Lai*. Fast fixed-time sliding mode control of a bistable dual-stage vibration isolator with disturbances. Nonlinear Dynamics, 2023, 111:19947-19962. (大二区Top,IF=5.6)
[30] S Fang, K Chen, Z Lai*, S Zhou, D Yurchenko, W Liao. A bio-inspired system for simultaneous vibration isolation and energy harvesting in post-capture spacecraft. Mechanical Systems and Signal Processing, 2023, 199: 110466. (大一区Top,IF=8.4)
[29] Z Lai, Z Huang, M Xu, C Wang, J Xu, C Zhang, R Zhu*, Z Qiao*. High-performance adaptive weak fault diagnosis based on the global parameter optimization model of a cascaded stochastic resonance system. Sensors, 2023, 23: 4429. (大三区,IF=3.9)
[28] S Fang, K Chen, B Zhao, Z Lai*, S Zhou, W Liao*. Simultaneous broadband vibration isolation and energy harvesting at low frequencies with quasi-zero stiffness and nonlinear monostability. Journal of Sound and Vibration. 2023, 553: 117684. (大二区,IF=4.7)
[27] S Fang, S Wang, G Zhang, C Wang, J Xu, Z Wang, A Feng, Z Qiao, D Yurchenko, Z Lai*. On high-performance rotational energy harvesting with a novel cam-like dielectric elastomer generator. Science China – Technological Sciences, 2023, 66: 1317–1334. (大二区,国内高水平期刊,IF=4.6)
[26] Z Lai, J Xu, S Fang*, Z Qiao, S Wang, C Wang, Z Huang, S Zhou*. Energy harvesting from a hybrid piezo-dielectric vibration energy harvester with a self-priming circuit. Energy, 2023, 273: 127205. (大一区Top,IF=9)
[25] C Zhang, J Xu, S Fang, Z Qiao, D Yurchenko, Z Lai*. A pendulum-based absorber-harvester with an embedded hybrid vibro-impact electromagnetic-dielectric generator. Nano Energy, 2023, 107: 108126. (大一区Top,IF=17.6)
2022年
[24] C Wang, Z Qiao, Z Huang, J Xu, S Fang, C Zhang, J Liu, R Zhu, Z Lai*. Research on a bearing fault enhancement diagnosis method with convolutional neural network based on adaptive stochastic resonance. Sensors, 2022, 22: 8730. (大三区,IF=3.9)
[23] Z Lai, J Xu, C R Bowen, S Zhou*. Self-powered and self-sensing devices based on human motion. Joule, 2022, 6, 1501-1565. (Cell姊妹刊,大一区Top,IF=39.8)
[22] K Yang, W Tong, Z Huang, T Qiu, Z Lai*. Signal-to-noise ratio improvement of the signal immersed in the strong background noise using a bistable circuit with tunable potential-well depth. Mechanical Systems and Signal Processing, 2022, 177: 109201. (大一区Top,IF=8.4)
2021年
[21] Z Lai, S Wang, L Zhu, G Zhang, J Wang*, K Yang*, D Yurchenko. A hybrid piezo-dielectric wind energy harvester for high-performance vortex-induced vibration energy harvesting. Mechanical Systems and Signal Processing, 2021, 150: 107212. (大一区Top,IF=8.934)
2020年
[20] C Zhang, Z Lai*, G Zhang, D Yurchenko. Energy harvesting from a dynamic vibro-impact dielectric elastomer generator subjected to rotational excitations. Nonlinear Dynamics. 2020, 102: 1271-1284. (大二区Top,IF=5.022)
[19] C Zhang, Z Lai*, M Li, D Yurchenko. Wind energy harvesting from a conventional turbine structure with an embedded vibro-impact dielectric elastomer generator. Journal of Sound and Vibration. 2020, 487: 115616. (大二区Top,IF=3.655 )
[18] X Rao, C Zhang, L Zhu, G Zhang, J Zhang, Z Lai*. Investigation on the impact-based energy conversion of a dielectric elastomer membrane. IEEE Access, 2020, 8: 180261-180272. (大二区Top,IF=3.745)
[17] J Zhang, Z Lai*, X Rao*, C Zhang. Harvest rotational energy from a novel dielectric elastomer generator with crank-connecting rod mechanisms. Smart Materials and Structures, 2020, 29(6): 065005. (大二区,IF=3.613)
[16] Z Lai, S Wang, G Zhang*, C Zhang, J Zhang. Rolling Bearing Fault Diagnosis Based on Adaptive Multiparameter-Adjusting Bistable Stochastic Resonance. Shock and Vibration, 2020: 6096024. (大四区,IF=1.298)
[15] C Zhang, Z Lai*, X Rao*, J Zhang, D Yurchenko. Energy harvesting from a novel contact-type dielectric elastomer generator. Energy Conversion and Management, 2020, 205: 112351. (大一区Top,IF=9.709)
2019年
[14] Z Lai, J Wang*, C Zhang, G Zhang, D Yurchenko. Harvest wind energy from a vibro-impact DEG embedded into a bluff body. Energy Conversion and Management, 2019, 199: 111993. (大一区Top,IF=8.208)
[13] Z Lai*, J Liu, H Zhang, C Zhang, J Zhang, D Duan*. Multi-parameter-adjusting stochastic resonance in a standard tri-stable system and its application in incipient fault diagnosis. Nonlinear Dynamics, 2019, 96: 2069-2085. (大二区Top,IF=4.867)
[12] G Thomson, Z Lai*, D Val, D Yurchenko. Advantages of nonlinear energy harvesting with dielectric elastomers. Journal of Sound and Vibration, 2019, 442(3): 167-182. (大二区Top,IF=3.429)
2018年
[11] Z Lai, G Thomson*, D Yurchenko, D Val, E Rodgers. On energy harvesting from a vibro-impact oscillator with dielectric membranes. Mechanical Systems and Signal Processing, 2018, 107: 105-121. (大二区Top,IF=5.005)
2017年
[10] D Yurchenko, Z Lai*, G Thomson, D Val, R Bobryk. Parametric study of a novel vibro-impact energy harvesting system with dielectric elastomer. Applied Energy, 2017, 208: 456-470. (大一区Top,IF=7.900)
[9] D Yurchenko, D Val, Z Lai*, G Gu, G Thomson. Energy harvesting from a DE-based dynamic vibro-impact system. Smart Materials and Structures, 2017, 26(10): 105001. (大2区,IF=2.963)
2016年
[8] 赖志慧,饶锡新,刘建胜*,冷永刚,基于Duffing振子的信号频谱重构随机共振研究,振动与冲击,2016,35(21):9-16. (EI收录)
[7] Z Lai, Y Leng*. Weak-signal detection based on the stochastic resonance of bistable Duffing oscillator and its application in incipient fault diagnosis. Mechanical Systems and Signal Processing, 2016, 81: 60-74. (大二区, IF=4.116)
2015年
[6] 赖志慧*,冷永刚,三稳系统的动态响应及随机共振,物理学报,2015,64(20):200503. (大四区,中国科技期刊卓越行动计划期刊,IF=0.667)
[5] Z Lai*, Y Leng, Generalized parameter-adjusted stochastic resonance of Duffing oscillator and its application to weak-signal detection, Sensors, 2015, 15(9): 21327-21349. (大3区,IF=2.033)
2014年
[4] 冷永刚,赖志慧*,基于Kramers逃逸速率的Duffng振子广义调参随机共振研究,物理学报,2014,63(02):020502. (大四区,中国科技期刊卓越行动计划期刊,IF=0.813)
2013年
[3] 赖志慧,冷永刚*,范胜波,级联双稳Duffing系统的随机共振研究,物理学报,2013,62(07):070503. (大四区,中国科技期刊卓越行动计划期刊,IF=0.845)
2012年
[2] 冷永刚,赖志慧*,范胜波,高毓璣,二维Duffing振子的大参数随机共振及微弱信号检测研究,物理学报,2012,61(23):230502. (大四区,中国科技期刊卓越行动计划期刊,IF=1.016)
[1] 赖志慧,冷永刚*,孙建桥,范胜波,基于Duffing振子的变尺度微弱特征信号检测方法研究,物理学报,2012,61(05):050503. (大四区,中国科技期刊卓越行动计划期刊,IF=1.016)