鲍岳

Release time:2025-01-10

Name of Research Group: IDeal

Description of Research Group: 厦门大学IDEAL实验室专注于技术创新研究与应用，旨在推动产业升级和经济发展。团队重点研究三大领域：一是机电装备创新设计，通过个性化定制和NVH优化，提升装备性能；二是基于AI的装备智能化，实现生产过程的智能感知与控制，提高生产效率和质量；三是激光金属增减材制造，突破传统工艺，实现复杂零件的创新制造和修复。IDEAL实验室致力于将科研成果转化为实际生产力，与各方紧密合作，培养创新人才，助力国家科技进步和产业升级。

Team members Introduction:

鲍岳助理教授

邮箱：baoyue@xmu.edu.cn

地址：厦门大学翔安校区航空航天大楼217

工作经历

2024-至今，厦门大学，萨本栋微米纳米科学技术研究院，助理教授

2016-2020，东风日产乘用车技术中心，音振实验科，汽车工程师

教育背景

2020-2024，北京航空航天大学，汽车工程系，工学博士

2013-2016，四川大学，高分子科学工程国家重点实验室，工学硕士

2009-2013，南昌大学，材料科学与工程学院，工学学士

研究领域：

振动与噪声控制，振动力学，汽车NVH，弹性波操控与力/声超结构设计，结构健康监测与故障诊断

欢迎具有机械、力学、物理、数学、能动、航空、交通、仪器、材料等理工专业背景同学推免和报考本团队的研究生，也欢迎本科生同学加入团队开展科研工作。

荣誉奖励

[1] 2021年Inter-noise国际噪声控制大会优秀青年学者奖“Young Profession Grant Awards” (声学领域国际顶级会议)

[2] 2022年汽车NVH控制技术国际研讨会优秀论文

[3] 博士研究生国家奖学金

[4] 北航研究生优秀学术成果奖

近期发表文章

[1] Bao Y, Yao Z, Fu J, et al. Scattering and wave-blocking characteristics of composite ABHs in steel plate. International Journal of Mechanical Sciences, 2024: 109495. (JCR-Q1, 中科院1区Top)

[2] Bao Y, Yao, Z, Hu X, Liu X, et al. Complete bandgap of three-dimensional helical metamaterial tapered rod with power- law radius. Mechanical Systems and Signal Processing, 2024: 111257. (JCR-Q1, 中科院1区Top)

[3] Bao Y, Feng Q, Zhao W, et al. Research on acoustic-structural coupling model and tire parameters of tire acoustic cavity resonance noise. Journal of Low Frequency Noise, Vibration & Active Control, 2024. (JCR-Q1, 中科院4区)

[4] Bao Y, Yao Z, Zhang Y, et al. Ultra-broadband gaps of a triple-gradient phononic acoustic black hole beam. International Journal of Mechanical Sciences, 2023: 108888. (JCR-Q1, 中科院1区Top)

[5] Bao Y, Yao Z, Liu X, et al. Damping vibration in three-dimensional helically tapered rod with power-law thickness. International Journal of Mechanical Sciences, 2023: 108535. (JCR-Q1, 中科院1区Top)

[6] Bao Y, Liu X, Yao Z, et al. Vibration energy accumulation and absorption characteristics of pseudo acoustic black hole wedge. Mechanics of Advanced Materials and Structures, 2023: 1-16. (JCR-Q1, 中科院3区)[7] Bao Y, Liu X, Wang Z, et al. Numerical and experimental investigations of multiple resonators on reducing tyre cavity resonance Noise. Acoustics Australia, 2023, 51: 255-264. (JCR-Q2, 中科院4区)

[8] Bao Y, Liu X, Yao Z, et al. Damping evolution mechanism of panel embedded with heterogeneous acoustic black hole array. Acta Mechanica Sinica, 2023, 39(3): 522270. (JCR-Q1, 中科院2区)

[9] Bao Y, Liu X, Zhao W, et al. Design of Helmholtz resonator group in a lightweight aluminum alloy wheel for reducing tire acoustic cavity resonance noise. Applied Acoustics, 2022, 201: 109124. (JCR-Q1, 中科院2区)

[10] Bao Y, Liu X, Yao Z, et al. Research on Vibration Absorption and Isolation Characteristics of Periodic Acoustic Black Hole Beam Resonators and their Enhancement. International Journal of Applied Mechanics, 2023, 15: 2350002. (JCR-Q2,中科院3区)

[11] Bao Y, Liu X, Shan Y. Convergence performance of flexural wave in the unconventional acoustic black hole. Mathematics and Mechanics of Solids, 2023, 28(6): 1382-1400. (JCR-Q2, 中科院4区)

[12] Xue B, Zhang J, Bao Y*. Acoustically and thermally insulating epoxy foams prepared by non-traditional expandable microspheres. Polymer Engineering & Science, 2019, 59(4): 799-806. (JCR-Q2, 中科院4区)

[13] 鲍岳, 刘献栋, 梁浩鸣等. 声学黑洞能量汇聚效应及阻尼耗能机理研究. 汽车技术, 2022, (05): 1-10. (中文核心)

[14] Bao Y, Liu X, Hu X, et al. Numerical investigation of tire shape parameters on the tire acoustic cavity resonance noise. INTER-NOISE and NOISE-CON Congress and Conference Proceedings. Institute of Noise Control Engineering, 2023, 268(7): 1289-1296. (一作，国际EI会议，口头报告)

[15] Xue B, Xie L, Bao Y, et al. Multilayered epoxy/glass fiber felt composites with excellently acoustical and thermal insulation properties. Journal of Applied Polymer Science, 2019, 136(3): 46935. (JCR-Q1, 中科院3区)

[16] He T, Guo C, Fu J, Bao Y, et al. Enhancing Acoustic Emission Wave Attenuation at Structural Boundaries: Introducing an Additional Spiral Acoustic Black Hole and Assessing its Performance. Ultrasonics, 2024, 141: 107353. (JCR-Q1, 中科院2区)

[17] Yong J, Dong Y, Bao Y, et al. High Load-bearing and Low-frequency Multi-broadband Design of Innovative Composite Meta-material. Materials & Design, 2024, 241: 112945. (JCR-Q1, 中科院2区)

[18] Fu J, He T, Liu Z, Bao Y, et al. A Novel Waveguide Rod with Acoustic Black Hole for Acoustic Emission Signal Enhancement and its Performance. Ultrasonics, 2024: 138: 107260. (JCR-Q1, 中科院2区)

学术兼职

Journal of Sound and Vibration、Mechanical Systems and Signal Processing、International Journal of Mechanical Science、Measurement Science and Technology、Journal of Applied Polymer Science、Physica Scripta等国际知名期刊审稿人