教师主页移动版

个人经历 personal experience 教育经历 学校名称 起始时间 结束时间 学历 学位

教育教学

教育教学 Education and teaching 招生信息 船舶与海洋工程（082400）1. 资源与环境，硕士，每年招生1-3名。 2. 水声工程，硕士，每年招生1-3名。欢迎具有物理、声学、力学、机械工程等背景的优秀本科生报考。

荣誉获奖

科学研究 Scientific Research 1. 声学黑洞：利用厚度削减来降低弯曲波速度，从而实现轻质、宽频和高效的波动控制。2. 声学超材料：利用局域共振等原理，调控声波的传播方向和有效频率区间。3. 确定性建模：利用瑞利里兹法和有限元方法等对结构振动行为进行表征。特别地，针对组合结构的耦合难点，本人提出了一种零空间方法，精准预测组合结构的动力学行为。4. 统计性建模：针对中高频声振耦合计算难点，建立统计模态能量分布分析模型，进行高效的中高频计算。5. 水下声振耦合：研究声学黑洞/声学超材料的水声特性。For more information please visit my homepage in ResearchGate: Jie Deng (researchgate.net)

科学研究

学术成果 Academic Achievements Preprints submitted for publication---[34] Jie Deng, Xu Chen, Yi Yang, Zhaoye Qin, Periodic additive acoustic black holes to absorb vibrations from plates. 2023.[33] Jie Deng, Xu Chen, Yi Yang, Nansha Gao, Jing Liu, Jiafu Ma. Vibration damping by additive periodic acoustic black holes. 2023.[32] Jie Deng, Oriol Guasch and Davide Ghilardi. Solution and analysis of a continuum model of sonic black holes in duct terminations. 2023.Articles in academic journals---[31] Jie Deng, Oriol Guasch, Sound waves in continuum models of periodic sonic black holes. Mechanical Systems and Signal Processing, 2023, 205, pp. 110853.[30] Jie Deng, Yuxin Xu, Oriol Guasch, Nansha Gao, Liling Tang, Xu Chen. A two-dimensional wave and Rayleigh-Ritz method for complex dispersion in periodic arrays of circular damped acoustic black holes. Mechanical Systems and Signal Processing, 2023, 200, pp. 110507.[29] Jie Deng, Nansha Gao, Xu Chen, Huayan pu, Jun Guo. Underwater sound radiation from a Mindlin plate with an acoustic black hole. Ocean Engineering, 2023, 278, pp. 114376.[28] Jie Deng, Nansha Gao, Xu Chen, Bing Han, Hongli Ji, Evanescent waves in a metabeam attached with lossy acoustic black hole pillars. Mechanical Systems and Signal Processing, 2023, 191, pp. 110182.[27] Jie Deng, Oriol Guasch, Laurent Maxit, Nansha Gao. An artificial spring component mode synthesis method for built-up structures. International Journal of Mechanical Sciences, 2023, 243, pp. 108052.[26] Jie Deng, Nansha Gao, Xu Chen. Ultrawide attenuation bands in gradient metabeams with acoustic black hole pillars. Thin-Walled Structures, 2023, 184, pp. 110459.[25] Jie Deng, Yuxin Xu, Oriol Guasch, Nansha Gao, Liling Tang and Wenjie Guo. A wave and Rayleigh-Ritz method to compute complex dispersion curves in periodic lossy acoustic black holes. Journal of Sound and Vibration. 2023, 546, pp. 117449.[24] Jie Deng, Oriol Guasch, Laurent Maxit, Nansha Gao. Sound radiation and non-negative intensity of a metaplate consisting of an acoustic black hole plus local resonators. Composite Structures, 2023, 304, pp. 116423.[23] Meiyu Li, Jie Deng, Ling Zheng, Shuhong Xiang. Vibration mitigation via integrated acoustic black holes. Applied Acoustics, 2022, 198, pp. 109001.[22] Jie Deng, Nansha Gao. Broadband vibroacoustic reduction for a circular beam coupled with a curved acoustic black hole via nullspace method. International Journal of Mechanical Sciences. 2022, 233, pp. 107641.[21] Jie Deng, Nansha Gao, Liling Tang, Hong Hou, Kean Chen, Ling Zheng. Vibroacoustic mitigation for a cylindrical shell coupling with an acoustic black hole plate using Gaussian expansion component mode synthesis. Composite Structures, 2022, 298, pp. 116002.[20] Jie Deng, Yuxin Xu, Oriol Guasch, Nansha Gao, Liling Tang. Nullspace technique for imposing constraints in the Rayleigh–Ritz method. Journal of Sound and Vibration, 2022, 527, pp. 116812.[19] Jie Deng, Oriol Guasch, Laurent Maxit, Nansha Gao. A metamaterial consisting of an acoustic black hole plate with local resonators for broadband vibration reduction. Journal of Sound and Vibration, 2022, 526, pp. 116803.[18] Jie Deng, Ling Zheng. Noise reduction via three types of acoustic back holes. Mechanical Systems and Signal Processing, 2022, 165, pp. 108323.[17] Tingting Song, Ling Zheng, Jie Deng. Broadband energy harvesting characteristics of periodic acoustic black holes based on Gaussian expansion method. Shock and Vibration, 2021. (In Chinese)[16] Jie Deng, Ling Zheng. Broad band gaps for flexural wave manipulation in plates with embedded periodic strip acoustic black holes. International Journal of Solids and Structures, 2021, 224, pp. 111043. [15] Nansha Gao, Liling Tang, Jie Deng, Kuan Lu, Hong Hou, Kean Chen. Design, fabrication and sound absorption test of composite porous metamaterial with embedding I-plates into porous polyurethane sponge. Applied Acoustics, 2021, 175, pp. 107845.[14] Nansha Gao, Xinyu Guo, Jie Deng, Baozhu Chen, Hong Hou. Elastic wave modulation of double-leaf ABH beam embedded mass oscillator. Applied Acoustics, 2020, 173, pp. 107694.[13] Jie Deng, Oriol Guasch, Laurent Maxit, Ling Zheng. Annular acoustic black holes to reduce sound radiation from cylindrical shells. Mechanical Systems and Signal Processing, 2021, 158, pp. 107722.[12] Jie Deng, Oriol Guasch, Ling Zheng. Reconstructed Gaussian basis to characterize flexural wave collimation in plates with periodic arrays of annular acoustic black holes. International Journal of Mechanical Sciences, 2021, 194, pp. 106179.[11] Jie Deng, Oriol Guasch, Ling Zheng, Tingting Song, Yanshu Cao. Semi-analytical model of an acoustic black hole piezoelectric bimorph cantilever for energy harvesting. Journal of Sound and Vibration, 2021, pp. 115790.[10] Jie Deng, Ling Zheng, Oriol Guasch. Elliptical acoustic black holes for flexural wave lensing in plates. Applied Acoustics, 2021, 174, pp. 107744. [9] Jie Deng, Oriol Guasch, Laurent Maxit, Ling Zheng. Transmission loss of plates with multiple embedded acoustic black holes using statistical modal energy distribution analysis. Mechanical Systems and Signal Processing, 2021, 150, pp. 107262.[8] Jie Deng, Oriol Guasch, Laurent Maxit, Ling Zheng. Vibration of cylindrical shells with embedded annular acoustic black holes using the Rayleigh-Ritz method with Gaussian basis functions. Mechanical Systems and Signal Processing, 2021, 150, pp. 107225.[7] Jie Deng, Oriol Guasch, Laurent Maxit, Ling Zheng. Reduction of Bloch-Floquet bending waves via annular acoustic black holes in periodically supported cylindrical shell structures. Applied Acoustics, 2020, 169, pp. 107424.[6] Jie Deng, Oriol Guasch, Ling Zheng. A semi-analytical method for characterizing vibrations in circular beams with embedded acoustic black holes. Journal of Sound and Vibration, 2020, 476, pp. 115307.[5] Jie Deng, Oriol Guasch, Ling Zheng. Ring-shaped acoustic black holes for broadband vibration isolation in plates. Journal of Sound and Vibration, 2019, 458, pp. 109-122.[4] Jie Deng, Ling Zheng, Oriol Guasch, Hang Wu, Pengyun Zeng, Yifang Zuo. Gaussian expansion for the vibration analysis of plates with multiple acoustic black holes indentations. Mechanical Systems and Signal Processing, 2019, 131, pp. 317-334.[3] Pengyun Zeng, Ling Zheng, Jie Deng, Adel Elsabbagh, Shuhong Xiang, Tingfei Yan, Yao Wu. Flexural wave concentration in tapered cylindrical beams and wedge-like rectangular beams with power-law thickness. Journal of Sound and Vibration, 2019, 452, pp. 82-96. [2] Jie Deng, Ling Zheng, Pengyun Zeng, Yifang Zuo, Oriol Guasch. Passive constrained viscoelastic layers to improve the efficiency of truncated acoustic black holes in beams. Mechanical Systems and Signal Processing, 2019, 118, pp. 461-476. [1] Ling Zheng, Yuanyuan Chen, Jie Deng, Shuhong Xiang, Guiqian Fang, Ye Li. Investigation of payload fill effect on a large launch vehicle fairing. Journal of Vibration Engineering, 2017, 30(5), 738-746. (In Chinese)Articles and oral presentations in Conferences---[18] Jie Deng, Oriol Guasch and Davide Ghilardi. Gaussian series solution for sonic black holes in duct terminations”, Forum Acusticum, Torino, Italy, 11-15, September, 2023.[17] Jie Deng, Ling Zheng. Effects of annular acoustic black holes on noise mitigation. The 19th Asia Pacific Vibration Conference (APVC2021), Qingdao, China, 01-03, November, 2022.[16] Meiyu Li, Jie Deng, Ling Zheng. Vibration absorber using integrated acoustic black holes. The 19th Asia Pacific Vibration Conference (APVC2021), Qingdao, China, 01-03, November, 2022.[15] Jie Deng, Oriol Guasch, Laurent Maxit, Nansha Gao. Radiation of a metaplate made of an acoustic black hole and local resonators. The 51st International Congress and Exhibition on Noise Control Engineering (InterNoise2022), Glasgow, the United Kingdom, 21-24, August 2022. (Virtual)[14] Jie Deng, Oriol Guasch, Laurent Maxit, Nansha Gao. Vibration of a metaplate made of an acoustic black hole and local resonators. The 51st International Congress and Exhibition on Noise Control Engineering (InterNoise2022), Glasgow, the United Kingdom, 21-24, August 2022. (Virtual)[13] Jie Deng, Oriol Guasch, Ling Zheng. A semi-analytical method for the vibration of cylindrical shells with embedded acoustic black holes. The 50th International Congress and Exhibition on Noise Control Engineering (InterNoise2021), Washington DC, United States, 01-05, August 2021. (Virtual)[12] Jie Deng, Oriol Guasch, Ling Zheng. Effects of Annular Acoustic Black Holes on Sound Radiated by Cylindrical Shells. The 50th International Congress and Exhibition on Noise Control Engineering (InterNoise2021), Washington DC, United States, 01-05, August 2021. (Virtual)[11] Jie Deng, Ling Zheng, Oriol Guasch. Acoustic lenses using multiple acoustic black holes based on Gaussian expansion method in plates. 27th International Congress on Sound and Vibation (ICSV27), Prague, Czech, 11-16, July 2021. (Virtual)[10] Tingting Song, Ling Zheng, Jie Deng. Broadband vibration energy harvesting based on the passband characteristics of periodic piezoelectric acoustic black hole. 29th Domestic Conference on Vibration and Sound Technology Applications (VSTA 2021), Chongqing, China, 09-11, April 2021. (In Chinese)[9] Jie Deng, Oriol Guasch, Ling Zheng. Waveguides of annular acoustic black holes for the conduction and focusing of flexural waves in plates. Forum Acusticum, Lyon, France, 07-11, December 2020. (Virtual)[8] Jie Deng, Oriol Guasch, Laurent Maxit, Ling Zheng. Statistical modal Energy distribution Analysis to determine the transmission loss of a plate with acoustic black hole indentations. Forum Acusticum, Lyon, France, 07-11, December 2020. (Virtual)[7] Jie Deng, Oriol Guasch, Laurent Maxit, Ling Zheng. Annular acoustic black holes to reduce propagative Bloch-Floquet flexural waves in periodically supported cylindrical shells. The 48th International Congress and Exhibition on Noise Control Engineering (InterNoise2019), Madrid, Spain, 16-19, June 2019. [6] Jie Deng, Oriol Guasch, Ling Zheng. Configurations of ring-shaped acoustic black holes for the isolation of vibrations in plates. The 48th International Congress and Exhibition on Noise Control Engineering (InterNoise2019), Madrid, Spain, 16-19, June 2019. [5] Jie Deng, Ling Zheng. Exploration of admissible shape functions in semi-analytical model to characterize one-dimensional acoustic black hole beams. The 6th Conference of Noise and Vibration Emerging Methods (NOVEM2018), Ibiza, Spain, 07-09, May 2018. [4] Jie Deng, Ling Zheng, Yifang Zuo, Pengyun Zeng, Hang Wu. Explorations of energy distribution in acoustic black hole beams. 28th Domestic Conference on Vibration and Sound Technology Applications (VSTA 2018), Shanghai, China, 20-22, April 2018.[3] Pengyun Zeng，Ling Zheng, Yifang Zuo, Jie Deng. Analysis of the energy concentration effect of flexural vibrations in tapered rods with power-law profile based on semi-analytical method. 28th Domestic Conference on Vibration and Sound Technology Applications (VSTA 2018), Shanghai, China, 20-22, April 2018. (In Chinese)[2] Hang Wu, Ling Zheng, Guangliang Liao, Ziwei Zhang, Wanying Xue, Jie Deng. Optimization design analysis of automobile powertrain mount. 28th Domestic Conference on Vibration and Sound Technology Applications (VSTA 2018), Shanghai, China, 20-22, April 2018. (In Chinese)[1] Ling Zheng, Lei Luo, Jie Deng, Shuhong Xiang, Jiang Yang. The analysis and prediction of acoustic fatigue in carbon fiber composite solar panel. The 17th Asian Pacific Vibration Conference (APVC2017), Nanjing，China, 13-15, November 2017.Doctoral Thesis---[2] Vibroacoustic modeling of acoustic black hole applications in flat, curved and complex mechanical structures (2020). Defensed in La Salle, Universitat Ramon Llull. Supervised by Prof. Oriol Guasch. Awarded with Excellent Thesis, Cum Laude and international PhD mention.[1] Vibroacoustic study of acoustic black hole structures based on the Gaussian expansion method (2021). Chongqing University. Supervised by Prof. Ling Zheng

学术成果

社会兼职 Social Appointments 编辑（客座）: Materials, Special Issue "Advances in Emerging Acoustic Materials"审稿人：Journal of Sound and Vibration, Journal of the Acoustical Sociaty of the America, Mechanical Systems and Signal Processing, International Journal of Mechanical Sciences, ASMS Journal of Vibration and Acoustics, Acta Mechanica Solida Sinica, Engineering Applications of Computational Fluid Mechanics, Communications Physics (Nature子刊).会员：声学学会，中国汽车工程学会

综合介绍