康鲁迪-青岛理工大学机械与汽车工程学院

康鲁迪实验师硕士生导师

最高学历：博士研究生
从事专业：噪声与振动控制、声学材料与结构、流体与结构耦合振动噪声
联系电话： 15153201690
电子信箱： rudykon2008@163.com
工作单位：青岛理工大学机械与汽车工程学院
通信地址：青岛经济技术开发区嘉陵江东路777号

个人简介

康鲁迪，工学博士，硕士生导师。主要从事噪声与振动控制研究，在振动噪声传播机理、减隔振材料设计，湍流边界层脉动压力与结构噪声耦合传递理论等方向取得显著进展。相关成果主要发表在《Journal of Sound and Vibration》、《The Journal of the Acoustical Society of America》、《Applied Acoustics》等声振领域顶级期刊；服务四方机车、海尔、海信、立讯等行业龙头企业；主持或主要参与了多项纵向、军工、横向项目，在被动噪声控制、声学与多物理场的计算等方向积攒了丰富经验。连续三年参加国际最具影响力ICSV会议，并作口头汇报。担任领域最受认可期刊《Journal of Sound and Vibration》审稿专家。

教育经历

工作履历

2023年3月-至今，青岛理工大学机械与汽车工程学院，教师/实验室专项主任
2014年7月-2018年7月，海尔空调电子有限公司，送风模块经理

学术兼职

教学情况

主授课程

本科课程：
《汽车振动与噪声》、《汽车结构有限元分析》、《材料成型原理》（实验）
研究生课程：
《振动噪声数值仿真技术》

科研情况

研究领域

噪声与振动控制、声学与多物理场计算

科研项目

[1] 2025.10-2028.09，山东省自然科学青年基金，13万，主持。
[2] 2025.12-2026.08，企业横向，60万，主持。
[3] 2026.03-2026.07，企业横向，7.8万，主持。
[4] 2024.10-2025.08，军工横向，29.56万，主持。
[5] 2023.09-2024.08，企业横向，3万，主持。

科研论文

[1]	Kang Ludi, Liu Bilong, An Fengyan. Beam element resonance-based prediction and parametric analysis of sound transmission of laminated panels[J]. Applied Acoustics, 2022, 199: 109036. 
[2]	Kang Ludi, Sun Chengpu, An Fengyan, Liu Bilong. A bending stiffness criterion for sandwich panels with high sound insulation and its realization through low specific modulus layers[J]. Journal of Sound and Vibration, 2022, 536: 117149.
[3]	Kang Ludi, Liu Bilong, An Fengyan, Dapeng Wei. Mechanical and vibro-acoustic performance of sandwich panel with perforated honeycomb cores[J]. The Journal of the Acoustical Society of America. 2022, 152(3):1539-1546.
[4]	Kang Ludi, Sun Chengpu, Liu haosheng, Liu Bilong. Determination of frequency-dependent shear modulus of viscoelastic layer via a constrained sandwich beam[J]. Polymers. 2022, 14(18): 3751.
[5]	张益铭，康鲁迪*，王振涛，刘碧龙. 模拟退火-等效源法修正复杂水声环境中测量的声源体积速度[J].应用声学，2026.
[6]	Ludi Kang, Tao Peng, Jiahang Xu, Bilong Liu, Rongwu Xu, A Correction Method for Measuring Sound Source Volume Velocity in Underwater Applications[J], Journal of Sound and Vibration, 2026.
[7]	Kang Ludi, Liu Bilong. Critical apparent bending stiffness and its realization for a sandwich panel with better sound insulation properties[C]. ICSV 29, Prague, 2023
[8]	Zhou Xiaobing, Kang Ludi*, Liu Bilong, Fang Qingchuan. The prediction of muffler acoustic performance considering flanking sound transmission and airflow influence[C]. ICSV 30, Amsterdam, 2024.
[9]	Kang Ludi, Liu Peng, Liu Bilong. Prediction of the airflow noise of industrial muffler based on the joint simulation of CFD and FEM[C]. ICSV 31, Incheon, 2025.
[10]	康鲁迪，许镓航，张益铭，刘鹏. 混响条件下声源体积速度修正方法研究[C], 第二十届全国船舶水下噪声学术研讨会，中国杭州，2025.8.14.
[11]	卢冠仲,康鲁迪*,刘碧龙,等.基于 CFD-FEM联合仿真的工业消声器气流噪声预测[J].青岛理工大学学报, 2025,46(04):143-149.
[12]	秦泽杉,常道庆,康鲁迪,等.放气远场辐射噪声数值模拟研究[J].噪声与振动控制, 2025, 45(04):52-58.
[13]	王晓锋,康鲁迪,常道庆,等.球面波入射下约束阻尼板的隔声特性研究[J].青岛理工大学学报,2020,41(06): 40-47.
[14]	周晓炳,康鲁迪,刘鹏,方庆川,刘碧龙,工业消声器侧壁传声的预测方法与拟合公式,声学与振动, 2024.03.
[15]	赵艳菊，宋士轲，陈大伟，康鲁迪，刘碧龙.非对称夹芯板隔声量的解析计算模型及影响因素[J]. 声学学报, 2022, 47(01). 
[16]	Li Xin, Wu Qianqian, Kang Ludi, Liu Bilong. Design of Multiple Parallel-Arranged Perforated Panel Absorbers for Low Frequency Sound Absorption[J]. Materials, 2019, 12(13):2099.
[17]	Zhang Tong, Kang Ludi, Li Xin, Zhang Hongbo and Liu Bilong. Sound Transmission Prediction of Sandwich Panels with Honeycomb and Foam Cores and an Emphatic Discussion on Radiation Terms[J]. International Journal of Acoustics and Vibration, 2021, 26(1): 70-79. 
[18]	Wei Dapeng, Liu Bilong, Kang Ludi, Numerical Investigation of Distributed Speed Feedback Control of Turbulent Boundary Layer Excitation Curved Plates Radiation Noise, Acoustics, 2023,10.3390.
[19]	杨发展, 康鲁迪.基于LabVIEW的中空结构铝合金高速铣削加工噪声试验系统设计[J].制造技术与机床,2015, (07):129-132+136.
[20]	杨发展, 赵万华,康鲁迪,等.蜂窝状铝合金高速加工刀具粘附行为及其作用机理研究[J].工具技术, 2014, 48(10): 7-11.
[21]	康鲁迪, 杨发展,佟春明.铝合金高速加工关键技术研究现状及分析[J]. 现代制造工程, 2014, (01):83-87.

[1] Kang Ludi, Liu Bilong, An Fengyan. Beam element resonance-based prediction and parametric analysis of sound transmission of laminated panels[J]. Applied Acoustics, 2022, 199: 109036.
[2] Kang Ludi, Sun Chengpu, An Fengyan, Liu Bilong. A bending stiffness criterion for sandwich panels with high sound insulation and its realization through low specific modulus layers[J]. Journal of Sound and Vibration, 2022, 536: 117149.
[3] Kang Ludi, Liu Bilong, An Fengyan, Dapeng Wei. Mechanical and vibro-acoustic performance of sandwich panel with perforated honeycomb cores[J]. The Journal of the Acoustical Society of America. 2022, 152(3):1539-1546.
[4] Kang Ludi, Sun Chengpu, Liu haosheng, Liu Bilong. Determination of frequency-dependent shear modulus of viscoelastic layer via a constrained sandwich beam[J]. Polymers. 2022, 14(18): 3751.
[5] 张益铭，康鲁迪*，王振涛，刘碧龙. 模拟退火-等效源法修正复杂水声环境中测量的声源体积速度[J].应用声学，2026.
[6] Ludi Kang, Tao Peng, Jiahang Xu, Bilong Liu, Rongwu Xu, A Correction Method for Measuring Sound Source Volume Velocity in Underwater Applications[J], Journal of Sound and Vibration, 2026.
[7] Kang Ludi, Liu Bilong. Critical apparent bending stiffness and its realization for a sandwich panel with better sound insulation properties[C]. ICSV 29, Prague, 2023
[8] Zhou Xiaobing, Kang Ludi*, Liu Bilong, Fang Qingchuan. The prediction of muffler acoustic performance considering flanking sound transmission and airflow influence[C]. ICSV 30, Amsterdam, 2024.
[9] Kang Ludi, Liu Peng, Liu Bilong. Prediction of the airflow noise of industrial muffler based on the joint simulation of CFD and FEM[C]. ICSV 31, Incheon, 2025.
[10] 康鲁迪，许镓航，张益铭，刘鹏. 混响条件下声源体积速度修正方法研究[C], 第二十届全国船舶水下噪声学术研讨会，中国杭州，2025.8.14.
[11] 卢冠仲,康鲁迪*,刘碧龙,等.基于 CFD-FEM联合仿真的工业消声器气流噪声预测[J].青岛理工大学学报, 2025,46(04):143-149.
[12] 秦泽杉,常道庆,康鲁迪,等.放气远场辐射噪声数值模拟研究[J].噪声与振动控制, 2025, 45(04):52-58.
[13] 王晓锋,康鲁迪,常道庆,等.球面波入射下约束阻尼板的隔声特性研究[J].青岛理工大学学报,2020,41(06): 40-47.
[14] 周晓炳,康鲁迪,刘鹏,方庆川,刘碧龙,工业消声器侧壁传声的预测方法与拟合公式,声学与振动, 2024.03.
[15] 赵艳菊，宋士轲，陈大伟，康鲁迪，刘碧龙.非对称夹芯板隔声量的解析计算模型及影响因素[J]. 声学学报, 2022, 47(01).
[16] Li Xin, Wu Qianqian, Kang Ludi, Liu Bilong. Design of Multiple Parallel-Arranged Perforated Panel Absorbers for Low Frequency Sound Absorption[J]. Materials, 2019, 12(13):2099.
[17] Zhang Tong, Kang Ludi, Li Xin, Zhang Hongbo and Liu Bilong. Sound Transmission Prediction of Sandwich Panels with Honeycomb and Foam Cores and an Emphatic Discussion on Radiation Terms[J]. International Journal of Acoustics and Vibration, 2021, 26(1): 70-79.
[18] Wei Dapeng, Liu Bilong, Kang Ludi, Numerical Investigation of Distributed Speed Feedback Control of Turbulent Boundary Layer Excitation Curved Plates Radiation Noise, Acoustics, 2023,10.3390.
[19] 杨发展, 康鲁迪.基于LabVIEW的中空结构铝合金高速铣削加工噪声试验系统设计[J].制造技术与机床,2015, (07):129-132+136.
[20] 杨发展, 赵万华,康鲁迪,等.蜂窝状铝合金高速加工刀具粘附行为及其作用机理研究[J].工具技术, 2014, 48(10): 7-11.
[21] 康鲁迪, 杨发展,佟春明.铝合金高速加工关键技术研究现状及分析[J]. 现代制造工程, 2014, (01):83-87.

获奖情况

[1] 青岛理工大学优秀班主任，2025
[2] 青岛理工大学女教职工工作先进个人，2025

招生信息

对结构振动噪声感兴趣的研究生1-2人。

教师队伍

全院教师

康鲁迪