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陶猛

发布时间:2018-03-19浏览次数:16564

陶猛

博士生导师,硕士生导师

所属院系:车辆工程系

专业方向:机械设计及理论,机械制造及其自动化,机械工程

电子邮件:tomn_in@163.com

教育背景

1999-2003,上海交通大学机械与动力工程学院,本科

2003-2009,上海交通大学船舶海洋与建筑工程学院,博士

工作经历

2009-2011,上海交通大学金沙威尼斯欢乐娱人城,博士后

2011-2014,金沙威尼斯欢乐娱人城,副教授

2015-至今,金沙威尼斯欢乐娱人城,教授

研究方向

声学振动功能器件的智能优化设计

高性能声学超材料、超结构、超表面

轻量化结构振动与噪声控制

--固耦合动力学与控制

招生专业

机械设计及理论,机械制造及其自动化,机械工程

科研项目

[1] 国家自然科学基金,面向深水环境的低频宽带吸声覆盖层设计与研究,2023-2026,主持

[2] 国家自然科学基金,多自由度低频抑振器的抑振降噪机理研究,2018-2021,主持

[3] 国家自然科学基金,粘弹性多胞结构抗冲降噪一体化设计研究,2014-2017,主持

[4] 国家自然科学基金,基于声管测量的粘弹性介质的参数识别方法和优化设计研究,2014-2016,主持

[5] 贵州省百层次创新型人才项目,2016-2020,主持

[6] 贵州省科技厅基础研究重点项目,水下多功能分层复合黏弹性覆盖层声学特性研究,2020-2023,主持

[7] 教育部高校博士点基金,粘弹性材料动态力学参数的测量方法和优化设计研究,2013-2016,主持

[8] 中国船舶集团有限公司系统工程研究院,不同应用条件下声学材料的能量耗散特性研究,2022-2023,主持

[9] 中国船舶集团有限公司系统工程研究院,多种尺度声腔结构组合对阻尼材料参数需求分析,2021-2022,主持

[10] 中国船舶集团有限公司系统工程研究院,高静水压力下XSW压缩形变计算模块开发,2021-2022,主持

[11] 中国船舶集团有限公司七一二研究所,大潜深XSW设计方案论证及声学性能仿真模拟计算研究,2017-2018,主持

[12] 贵州省教育厅优秀科技创新人才计划项目,2014-2016,主持

[13] 机械系统与振动国家重点实验室开放基金,静压环境中粘弹性-弹性双层复杂圆柱壳体的声振特性和优化研究,2013-2015,主持

[14] 海洋工程国家重点实验室开放基金,静压下敷设吸声层的典型目标的回声特性变异研究,2012-2014,主持

[15] 贵州省科技基金,新型周期板架结构的抑振隔声特性研究,2012-2014,主持

代表性论文

[1] Li Zhaoyu, Sun Yiping, Wu Guanghua, Tao Meng*. Inverse design of broadband acoustic metasurfaces for reflective wavefront modulation through the topology optimization method. Applied Acoustics, 2023

[2] Li Zhaoyu, Ke Yibo, Wu Guanghua, Tao Meng*. Topology optimization combined with a genetic algorithm to design structured materials for underwater broadband acoustic absorption. Journal of Vibration and Control, 2022

[3] Wu Guanghua, Ke Yibo, Zhang Lin, Tao Meng *. Acoustic manipulation of fractal metamaterials with negative properties and near-zero densities. Applied Physics Express, 2022

[4] Sun Yiping, Bai Qiang, Zhao Xuefeng, Tao Meng*. Predicting the reflection coefficient of a viscoelastic coating containing a cylindrical cavity based on an artificial neural network model. Computer Modeling in Engineering & Sciences, 2022

[5] Zhang Chao, Ling Mingxiang, Tao Meng*. A block matrix-based precise integration algorithm for solving nonhomogeneous dynamic response. Journal of Computational and Nonlinear Dynamics, 2022

[6] Wu Guanghua, Ke Yibo, Zhang Lin, Tao Meng*. Acoustic metamaterials with zero-index behaviors and sound attenuation. Journal of Physics D: Applied Physics, 2022

[7] Fu Lei, Yang Ming, Sun Yiping, Tao Meng*. The genetic algorithm-based optimization method for the geometric and material parameters of underwater anechoic coating. IEEE Access, 2022

[8] Ke Yibo, Li Zhaoyu, Wu Guanghua, Zhang Lin, Tao Meng*. A foldable underwater acoustic meta-structure with broadband sound absorption at low frequency. Applied Physics Express, 2022

[9] Sun Yiping, Chen Jiadui, Bai Qiang, Zhao Xuefeng, Tao Meng*. A high-efficiency inversion method for the material parameters of an alberich-type sound absorption coating based on a deep learning model. Computer Modeling in Engineering & Sciences, 2022

[10] Sun Yiping, Li Zhaoyu, Chen Jiadui, Zhao Xuefeng, Tao Meng*. Variational autoencoder-based cavity shape optimization of an anechoic coating: an efficient- and neural network-based design. Materials Today Communications, 2022

[11] Li Zhaoyu, Hou Xiaoyuan, Ke Yibo, Tao Meng*. Topology optimization with a genetic algorithm for the structural design of composite porous acoustic materials. Applied Acoustics, 2022

[12] Zhang Lin, Ke Yibo, Wu Guanghua, Tao Meng*. Sound-absorption performance of a coupled square-neck embedded Helmholtz resonator. Japanese Journal of Applied Physics, 2022

[13] Wu Guanghua, Li Zhaoyu, Tao Meng*. Acoustic extraordinary transmission based on near-zero-index metamaterials. Applied Physics Express, 2022

[14] Ke Yibo, Zhang Lin, Zhao Xuefeng, Tao Meng*. An equivalent method for predicting acoustic scattering of coated shell using identified viscoelastic parameters of anechoic coating. Applied Acoustics, 2021

[15] Tao Meng*, Ye Hanfeng, Zhao Xuefeng. Acoustic performance prediction of anechoic layer using identified viscoelastic parameters. Journal of Vibration and Control, 2019

[16] Tao Meng. Simplified model for predicting acoustic performance of an underwater sound absorption coating. Journal of Vibration and Control, 2014

[17] Tao Meng *, Hua Hongxing. Improved low-frequency performance of a composite sound absorption coating. Journal of Vibration and Control, 2012

[18] Tao Meng *, Tang Weilin, Hua Hongxing. Noise reduction analysis of an underwater decoupling layer, Journal of Vibration and Acoustics, 2010






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