白富實,男,博士,西北工業大學航海學院副教授。
基本介紹
- 中文名:白富實
- 學位/學歷:博士
- 職業:教師
- 專業方向:3D高頻聲吶系統技術
- 任職院校:西北工業大學航海學院
人物經歷,研究方向,學術成果,
人物經歷
工作經歷
2019—— 西北工業大學航海學院(副教授)
2009-2011 長安汽車股份有限公司(助理工程師)
教育經歷
2014-2019 德國漢諾瓦大學動力學與振動研究所,博士
2011-2014 四川大學製造科學與工程學院,碩士
2005-2009 四川大學製造科學與工程學院,本科
研究方向
(1)水聲發射換能器技術(低頻、深海、寬頻、大功率)
(2)深海矢量水聽器原理及套用
(3)壓電技術及套用
學術成果
科研項目
(1)西北工業大學中央高校基本科研業務費科研資助項目,校級,主持
(2)廣東省青年基金,省部級,主持
(3)靶場實驗專項項目,國家級,主持
(4)自然基金面上項目,國家級,主持
(5)基礎加強重點項目課題,國家級,主持
(6)國家重大演示驗證項目,國家級,主持
(7)中船集團聯合研發項目,橫向,主持
(8)中電集團聯合研發項目,橫向,主持
(9)國家重大專項,國家級,參與
論文
發表論文、專著、專利共30餘篇,其中SCI收錄論文23篇,英文專著1部,H因子為11,總引用次數300餘次。部分著作如下:
論文
(1) Bai F., Saalbach K A, Twiefel J, Wallaschek J. Effect of different standoff distance and driving current on transducer during ultrasonic cavitation peening[J]. Sensors and Actuators A: Physical,2017, 261, 274-279.
(2) Bai F., Saalbach K A, Wang L, et al. Impact of time on ultrasonic cavitation peening via detection of surface plastic deformation[J]. Ultrasonics, 2018, 84:350-355.
(3) Bai F., Wang L, Saalbach K A, Twiefel J. A novel ultrasonic cavitation peening approach assisted by water jet[J]. Applied sciences,2018, 8(11), 2218.
(4) Bai F., Saalbach K A, Long Y, Twiefel J, Wallaschek J. Capability evaluation of ultrasonic cavitation peening at different standoff distances[J], Ultrasonics,2018, 84, 38-44.
(5) Bai F., Wang L, Yang K, He Z, Xue C, Twiefel J. Theoretical Modeling and Experimental Investigation of a V-Shaped Traveling Wave Piezoelectric Transducer for Ultrasonic Cavitation Peening: Part A[J], Applied Acoustics, 2021,178: 107971.
(6) Bai F., Wang L, Yang K, He Z, Qi G, Twiefel J. Theoretical Modeling and Experimental Investigation of a V-Shaped Traveling Wave Piezoelectric Transducer for Ultrasonic Cavitation Peening: Part B[J], Applied Acoustics, 2021, 178: 107972.
(7) Bai F., Long Y, Saalbach K A, Twiefel J. Theoretical and experimental investigations of ultrasonic sound fields in thin bubbly liquid layers for ultrasonic cavitation peening [J]. Ultrasonics, 2019, 93, 130-138.
(8) Bai F., Saalbach, K A, Wang L, Twiefel J. Investigation of impact loads caused by ultrasonic cavitation bubbles in small gaps[J], IEEE Access,2018, 6, 64622-64629.
(9) Bai F., Wang L, Yang K, He Z, Qi G, Twiefel J. Experimental Investigation of Peening Cylindrical Workpieces Utilizing a Transducer with Ring Sonotrode[J]. Applied Sciences, 2021, 11(1): 94.
(10) Bai F., Wang L, Yang K, He Z, Liu C, Twiefel J. A novel inner surface enhancement method for holes utilizing ultrasonic cavitation[J]. Ultrasonics, 2021, 115: 106453.
(11) Bai F., Wang L, Saalbach, K A, Twiefel J. Investigation of a contamination-free sonotrode for wastewater treatment, 16th Meeting of the European Society of Sonochemistry,2018, University of Burgundy - Franche-Comté, Besan?on, April, 15-19, 2018.
(12) Wang L, Hofmann V, Bai F., Liu Y, Jin J, Twiefel J. Systematic electromechanical transfer matrix model of a novel sandwich type flexural piezoelectric transducer[J]. International Journal of Mechanical Sciences,2018, 138, 229-243.
(13) Wang L, Hofmann V, Bai F., Jin J, Twiefel J. Modeling of coupled longitudinal and bending vibrations in a sandwich type piezoelectric transducer utilizing the transfer matrix method[J]. Mechanical Systems and Signal Processing, 2018, 108: 216-237.
(14) Wang L, Xue C, Hofmann V, Bai F., Jin J, Tweifel J. Semi-analytical modeling and optimization of a traveling wave sandwich piezoelectric transducer with a beam-ring combined structure[J]. Mechanical Systems and Signal Processing, 2019, 122: 171-191.
(15) Wang, L., Bai, F., Feng, H., Jin, J., & Twiefel, J. (2022). Simulation and experimental investigation of an ultrasound system with cavitation in concentric zone. Sensors and Actuators A: Physical, 346, 113880.
(16) Bai, F., Wang, L., Saalbach, K. A., & Twiefel, J. (2022). A contamination-free sonotrode for wastewater treatment. Program and Book of Abstracts, 253.
(17) Wang, L., Bai, F., Hofmann, V., Jin, J., & Twiefel, J. (2021). Novel Traveling Wave Sandwich Piezoelectric Transducer with Single Phase Drive: Theoretical Modeling, Experimental Validation, and Application Investigation. Chinese Journal of Mechanical Engineering, 34(1), 1-20.
(18) 陳玉, 白富實, 楊坤德.基於面剪下模式的新型雙層激勵換能器[J]. 聲學技術, 2022, 41(04):223-226.
(19) Chen Yu, Fushi Bai. Investigation on a novel relaxation ferroelectric single crystal transducer based on free face shear mode. The 16th Symposium on Piezoelectricity, Acoustic Waves, and Device Applications, 2022.(EI錄用)
專著
(1) Bai F., Investigation of the effect of ultrasonic cavitation in small gaps on surface properties [M], Tewiss,2019, ISBN: 978-3-95900-329-2.
專利
(1) 陳玉,白富實,楊坤德. 基於面剪下模式的寬頻帶單晶換能器, 202210992666.4 [P], 2022-08 (已受理)
(2) 白富實,楊坤德. 一種深孔V型超聲噴丸裝置, 2021101586157 [P], 2021-02 (已授權).
(3) 白富實,楊坤德. 一種基於亥姆霍茲諧振腔的深海超聲驅動裝置, 2021101588449 [P], 2021-02 (已授權).