纵向课题:
(部分)
1. Qiaosheng Pan, Huang Z, Zhao M, et al. Development of a dual-stator piezoelectric motor
operated in resonance and quasi-static states[J]. Mechanical Systems and Signal Processing,
2023, 183: 109618. (SCI TOP)
2. Qiaosheng Pan, Mingfei Z, Wang Y, et al. Design, simulation, and motion characteristics of
a novel impact piezoelectric actuator using double statorsstators[J]. Smart Materials and Structures, 2022. (SCI 2 区)
3. Qiaosheng Pan, Li Y, Diao W, et al. Design and investigation of a resonant piezoelectric pump with high output pressure using a displacement-amplifying vibrator[J]. Smart Materials and
Structures, 2022, 31(6): 065023. . (SCI 2 区)
4. Zhang Y, Wang X, Liu S, Qiaosheng Pan *. Design of a Piezoelectric Pump Driven by Inertial
Force of Vibrator Supported by a Slotted Beam[J]. Machines, 2022, 10(6): 460. (SCI 2 区) (通讯
作者)
5. Qiaosheng Pan, Jiang H, Zhang Y, et al. Development of a novel valve-based piezoelectric
ultrasonic pump using a Langevin vibrator[J]. Smart Materials and Structures, 2022, 31(6):
065026. (SCI 2 区)
6. Chen Li, Ruijun Li, Mingfei Zhao, Ya Wang, Yongqing Wei, Qiangxian Huang, Qiaosheng Pan*
Development of a high-resolution, high-speed impact piezoelectric actuator using cross
frequency band method [J] Smart Materials and Structures, 2022 (SCI 2 区) (通讯作者)
7. Qiaosheng Pan, Li Y, Wang X, et al. Design and investigation on a piezoelectric screw pump with high flowrate[J]. Smart Materials and Structures, 2021. (SCI 2 区)
8. Qiaosheng Pan, Huang Z, Wang Q, et al. Mass transfer from the rotor to the stator for
improving the speed of the piezoelectric motor based on centrifugal force[J]. Review of
Scientific Instruments, 2021, 92(5): 055008. (SCI)
9. Qiaosheng Pan *, H.Y. Jiang, Z.L. Huang, B. Huang, R.J. Li, B. Wang & Z.H. Feng Development
of a piezoelectric pump with ball valve structure, Journal of Intelligent Material Systems and
Structures, 2021: 1045389X21994179. (SCI)
10. Qiaosheng Pan *, H.Y. Jiang, Y.H. Li, Q. Wang, B. Huang, R.J. Li & Z.H. Feng Resonant type
piezoelectric pump driven at the power frequency using a tuning fork vibrator, International
Journal of Acoustics & Vibration, 2020, 25(4). (SCI)
11. Qiaosheng Pan,Jinsheng Hu, Enming Miao, Suxin Chen, Shuangbao Shu, Penghao Hu, Bin
Huang,Novel piezoelectric rotary motor driven by a single-phase sine wave with an asymmetric
stator[J]. Review of Scientific Instruments, 2019, 90(7): 075006. (SCI)
12. Qiaosheng Pan, Wang K, Zhang L, et al. Resonantly Driven Piezoelectric Pump Working Under a Certain Power Frequency With a Tuning Fork-Type Vibrator[C]//2019 Symposium on Piezoelectrcity, Acoustic Waves and Device Applications (SPAWDA). IEEE, 2019: 1-5. (EI)
13. Qiaosheng Pan, Kailun Wang, Enming Miao, Ye Wu, Shuangbao Shu,Xin Xu and Xiujun Lei.
Resonant-type piezoelectric inertial linear motor based on the optimization of a dual stage
tuning fork transducer. Review of Scientific Instruments, 2018, 89: 075002. (SCI)
14. Qiaosheng Pan, Enming Miao, Bingxuan Wu, Weikang Chen, Xiujun Lei, Liangguo He. Bio
inspired piezoelectric linear motor driven by a single-phase harmonic wave with an asymmetric
stator. Review of Scientific Instruments, 2017, 88(7): 075002. (SCI)
15 Qiaosheng Pan, Fangsheng Huang, Jian Chen, Liangguo He, Wei Li,Zhihua Feng*, High-Speed
Low-Friction Piezoelectric Motors Based On Centrifugal Force, IEEE Transactions on Industrial
Electronics, 2017.02.09,64(3):2158-2167 (SCI)
16. Qiaosheng Pan, Liangguo He, Fangsheng Huang, Xueyan Wang, Zhihua Feng*,Piezoelectric
micropump using dual-frequency drive,Sensors and Actuators A: Physical, 2015.6.15, 229:86-93
(SCI)
17. Qiaosheng Pan, Qi Zhang, Wang, Hong Bo, Li, Wei, Zhihua Feng*, Piezoelectric linear motor
using resonant-type clamping based on harmonic vibration synthesis, Mechatronics, 2014.12.01,
24(8):1112-1119 (SCI)
18. Qiaosheng Pan, Liangguo He, Chengliang Pan, Guangjun Xiao,Zhihua Feng, Resonant-type
inertia linear motor based on the harmonicvibration synthesis of piezoelectric bending actuator, Sensors and Actuators A-Physical, 2014.3.1,209:169-174 (SCI)