现为华中科技大学船舶与海洋工程学院讲师。近五年以第一作者/通讯作者发表SCI期刊论文10篇，EI论文1篇。一直致力于结构低频抑振、隔振、隔声、吸声等方向的研究工作。欢迎具有较好英语、数学、编程功底的学生报考研究生，鼓励并支持研究生参加国内外学术交流活动。 本科生教学课程：有限元素法、船舶专业英语、水声学原理。 教育及工作经历： 2009.9~2013.7, 西北工业大学环境工程专业，获工学学士学位 2015.3~2016.10, 澳大利亚国立大学，培养联合博士 2013.9~2019.4，西北工业大学水声工程专业，获工学博士学位 2019.4至今，华中科技大学船舶与海洋工程学院，讲师 科研项目： 1. 2021.1~2023.12，水下周期侧向局域共振超构板低频减振降噪机理研究，国家自然基金，主持 2. 2021.7~，水下***流致噪声计算研究，参与 3. 2020.7~2020.10，***振动特性研究，参与 4. 2020.5~2020.10，充液管道流固耦合计算，主持 5. 2016.10~2019.3，西北工业大学博士创新基金，主持 6. 2016.10~2017.11，某型导流结构声学特性研究，参与 7. 2016.10~2017.10，大型设备振动传递功率流测试及分析，参与

声学功能材料抑振、隔声、吸声特性研究 结构振动与噪声控制研究

主要从事结构振动与噪声控制、噪声预报、声学功能材料研究工作

[1] Sound transmission loss of an inertant metamaterial plate submerged in moving fluids.Applied Mathematical Modelling, [2] Theoretical Modeling and Analysis of Vibroacoustic Characteristics of an Acoustic Metamaterial Plate.Acta Mechanica Solida Sinica,2022,(5):1-12 [3] Low-frequency sound and vibration reduction of a metamaterial plate submerged in water.European Journal of Mechanics - A/Solids,2022, [4] Vibration analysis of an acoustic metamaterial plate with periodical multi-degree-of-freedom resonators attached.the 19th Asia Pacific Vibration Conference,2022, [5] Acoustic propagation through a duct metamaterial attached with periodic multi-resonant cavities.Journal of Vibration and Control,2023, [6] Wang Ting*, Qin Qinghua, Zhu Xiang. Reaction Force and Power Flow Analysis of an Acoustic Metamaterial Beam with Multi-band Gaps. Acoustics Australia, 48(2019):59-67.. [7] Liu Junyi, Guo Hanbei , Wang Ting* . A Review of Acoustic Metamaterials and Phononic Crystals. Crystals,10(2020):305.. [8] Wang Ting*,Tunable band gaps in an inertant metamaterial plate with two-degree-of-freedom local resonance, Physics Letters A,384(2020),126420.. [9] Wang Ting*, Liu Junyi, Chen Meixia. Underwater sound absorption of a meta-absorption layer with double negativity. Applied Acoustics, 181(2021):108182.. [10] Zhao Gong, Xu Meng, Wang Xiao, Wang Ting*. Low-frequency vibroacoustic performance of an acoustic metamaterial plate with periodical single-stage multi-degree-of-freedom resonators attachment. Physics Letters A, 412(2021):127593..