高南沙


的个人主页 http://teacher.nwpu.edu.cn/2016010114

  被浏览次数:11370

基本信息 The basic information

高南沙

航海学院

博士研究生毕业

工学博士

副教授

船舶与海洋工程,物理学,兵器科学与技术

gaonansha@nwpu.edu.cn

工作经历 Work Experience

 2019年12月-至今:西北工业大学副教授

2018.1-至今:   西北工业大学,博士后(在职),合作导师:侯宏

2016.07-2019.11:西北工业大学,助理教授

2017.09-2017.10:首尔大学,先进力学与材料设计所,访问学者,合作导师:Yoon Young Kim 

2012.03-2016.06: 西安交通大学,机械工程专业,博士,导师:吴九汇

2010.09-2012.03: 西安交通大学,机械电子工程专业,硕士,导师:虞烈

2006.09-2010.07: 西北大学,过程装备与控制工程专业,学士


 

教育经历 Education Experience

2011.03-2016.06: 西安交通大学,机械工程专业,博士

2006.09-2010.07: 西北大学,过程装备与控制工程专业,学士 

教育教学 Education And Teaching


声学仪器侧测试技术

课程编码:U03M11236

课程名称(中/英文):声学仪器及测试技术/ Acoustic instruments and testing technology

学时/学分:32/2.0


招生信息 Admission Information

环境工程和水声工程专业 硕士研究生,每年招生2-3名。

欢迎同学合作开展科学研究!

荣誉获奖 Awards Information

2019年入选中国声学学会青年人才托举计划。

2019年西安交通大学机械学院林孟良优秀博士学位论文。

2018年陕西省优秀博士学位论文。

2018年西安交通大学优秀博士学位论文。

2018年入选陕西省青年人才托举计划。


科学研究 Scientific Research

研究方向:

1. 吸/隔声超结构:面向200Hz以下的低频减振降噪问题,致力于提出具有大带宽的轻质被动或半主动声学结构

2. 任意表面声学超表面:针对目标表面的复杂形状,致力于提出基于任意表面形状的声学超表面设计方法

3. 力学超结构:针对军(民)品中极易破坏关键部件,致力于提出力学隐身、防护及新型弹性波动控制方法

4. 低频水下覆盖层:针对大潜深、高静压得应用环境,致力于设计低频宽带吸/隔声覆盖层。

 

主持项目:

1. 2018.11-2020.11面向水下声隐身的水声超结构理论研究及应用(编号:已立项)陕西省人力资源和社会保障厅主持

2. 2018.06-2020.06新型复合低频水声超材料机理分析及应用研究 (编号:已立项)陕西省科学技术协会主持

3. 2018.05-2020.05内嵌回旋结构的低频水声超材料机理分析及应用研究(编号:2018M631194)中国博士后科学基金会 主持

4. 2017.08-2020.08基于XXX材料的XXXXX研究及应用(编号:XXXXX)军委科技委主持

5. 2018.01-2021.01基于声子玻璃的水声超材料低频吸收特性及实验测试研究(编号:11704314)国家自然科学基金委员会主持

6. 2016.10-2018.10基于声超材料的低频减振降噪技术理论与应用研究(编号: 3102016QD056)西北工业大学 主持

 

学术成果 Academic Achievements

第一作者SCI期刊论文19篇:

[1] Nansha Gao, Jiu Hui Wu, Lie Yu, Research on bandgaps in two-dimensional phononic crystal with two  resonators[J], Ultrasonics, 2015, 56: 287-293.

[2] Nansha Gao, Jiu Hui Wu, Lie Yu, Large band gaps in two-dimensional phononic crystals with self-similarity structure[J], International Journal of Modern Physics B, 2015, 29(4): 1550017(12 pages).

[3] Nansha Gao, Jiu Hui Wu, Jing Li, Research on the band gaps of the two-dimensional Sierpinski fractal phononic crystals[J], Modern Physics Letters B, 2015, 29(23): 1550134(14 pages).

[4] Nansha Gao, Jiu Hui Wu, Dong Guan, Research on the large band gaps in multilayer radial phononic crystal structure[J], Modern Physics Letters B, 2016, 30(10): 1650109(13 pages).

[5] Nansha Gao, Jiu Hui Wu, Li Jing, Kuan Lu, Lie Yu, Large band gaps in radial phononic crystal structure with round mass block[J], European Physical Journal Applied Physics, 2016, 74(3): 30501(8 pages).

[6] Nansha Gao, Jiu Hui Wu, Lie Yu, Hong Hou, Ultralow frequency acoustic bandgap and vibration energy recovery in tetragonal folding beam phononic crystal[J], International Journal of Modern Physics B, 2016, 30(18): 1650111(19 pages)

[7] Nansha Gao, Jiu Hui Wu, Lie Yu, Hang Xin, Design of radial phononic crystal using annular soft material with low-frequency resonant elastic structures[J], Physics letter A, 2016, 380(41): 3326-3332.

[8] Nansha Gao, Hong Hou, Jiu Hui Wu, Baozhu Cheng, Low frequency band gaps below 10 Hz in radial flexible elastic metamaterial plate[J], Journal of Physics D: Applied Physics, 2016, 49(43), 435501(9 pages).

[9] Nansha Gao, Jiu Hui Wu, Hong Hou, Lie Yu, Excellent low-frequency sound absorption of radial membrane acoustic metamaterial[J], International Journal of Modern Physics B, 2016, 30(3), 1750011(17 pages).

[10] Nansha Gao, Hong Hou, Hang Xin, A single and double slotting radial acoustic metamaterial plate[J], Modern Physics Letters B, 2017, 31(12):1750128 (11 pages).

[11] Nansha Gao, Hong Hou, Low frequency acoustic properties of a honeycomb-silicone rubber acoustic metamaterial[J], Modern Physics Letters B, 2017, 31(11): 1750118 (15 pages).

[12] Nansha Gao, Hong Hou, Baozhu Cheng, Ruihao Zhang, A hollow inclusion self-similarity phononic crystal with an ultra-low-frequency bandgap[J], International Journal of Modern Physics B, 2018, 32(2), 1850005(12 pages).

[13] Nansha Gao, Baozhu Cheng, Hong Hou, Ruihao Zhang, Mesophase pitch based carbon foams as sound absorbers[J], Materials Letters, 2018, 212(1), 243-246.

[14] Nansha Gao, Hong Hou, Yanni Zhang, Jiu Hui Wu. Sound absorption of a new oblique-section acoustic metamaterial with nested resonator[J], Modern Physics Letters B, 2018, 32(4), 1850040(10 pages).

[15] Nansha Gao, Hong Hou, Jiu Hui Wu, A composite and deformable honeycomb acoustic metamaterial[J], International Journal of Modern Physics B, 2018, 32(20), 1850204(14pages).

[16] Nansha Gao, Yongyan Zhang, A low frequency underwater metastructure composed by helix metal and viscoelastic damping rubber[J], Journal of Vibration and Control, 2019, 25(3), 538-548.

[17] Nansha Gao, Zhengyu Wei, Hong Hou and Anastasiia Krushynska, Design and experimental investigation of V-folded beams with acoustic black hole indentations[J], Journal of the Acoustical Society of America, 2019, 145(1), EL79-EL83.

[18] Nansha Gao, Zhengyu Wei, Ruihao Zhang, Hong Hou, Low-frequency elastic wave attenuation in a composite acoustic black hole beam[J], Applied Acoustics, 2019, 154, 68-76.

[19] Nan-Sha Gao, Xin-Yu Guo, Bao-Zhu Cheng, Yan-Ni Zhang, Zheng-Yu Wei, Hong Hou, Elastic Wave Modulation in Hollow Metamaterial Beam With Acoustic Black Hole[J], IEEE Access, 2019, 7, 124141-124146.

 

通讯作者SCI期刊论文1篇:

[1] Baozhu Cheng, Hong Hou, Nansha Gao, An acoustic metasurface with simultaneous phase modulation and energy attenuation[J], Modern Physics Letters B, 32(23), 1850276(14 pages).

合作发表SCI期刊论文7篇:

[1] Zhengyu Wei, Hong Hou, Nansha Gao, Yunke Huang and Jianhua Yang, Complex Young’s modulus measurement by incident wave extracting in a thin resonant bar[J], Journal of the Acoustical Society of America, 2017, 142(6): 3436-3442

[2] Zhengyu Wei, Hong Hou, Nansha Gao, Yunke Huang and Jianhua Yang, Normal incidence sound transmission loss evaluation with a general upstream tube wave decomposition formula[J], Journal of the Acoustical Society of America, 2018, 144(4): 2344-2353.

[3] Li Jing, Jiu Hui Wu, Dong Guan, Nansha Gao, Multilayer-split-tube resonators with low-frequency band gaps in phononic crystals[J], Journal of Applied Physics, 2014, 116(10): 103514(7 pages).

[4] Dong Guan, Jiu Hui Wu, Jing Li, Nansha Gao, Application of a Helmholtz structure for prospective application of low frequency noise reduction[J], Noise Control Engineering Journal, 2015, 63(1): 20-35.

[5] Kuan Lu, Jiu Hui Wu, Jing Li, Nansha Gao, Dong Guan, The two-degree-of-freedom local resonance elastic metamaterial plate with broadband low-frequency bandgaps[J], Journal of Physics D: Applied Physics, 2017, 50(9): 095104 (10 pages).

[6] Kuan Lu, Jiu Hui Wu, Dong Guan, Nansha Gao, A lightweight low-frequency sound insulation membrane-type acoustic metamaterial[J], AIP advances, 2016, 6(2): 025116(10 pages).

[7] Li Jing, Jiu Hui Wu, Dong Guan, Kuan Lu, Nansha Gao, Cao Songhua, Asymmetric acoustic transmission in graded beam[J], Physica B, 2016, 502(1): 140-145.

第一作者论文EI期刊论文2篇:

[1] 高南沙,侯宏,三维局域共振型声子晶体低频带隙特性研究[J], 材料导报B:研究篇,2018, 32(1): 322-326.

[2] 高南沙,侯宏,新型斜截面形状嵌套谐振器的吸声特性研究[J], 振动与冲击,2018, 37(21): 190-194.

合作发表论文EI期刊论文1篇:

[1] 卫政宇,侯宏,高南沙,杨建华,黏弹细棒中直达波提取及其动态力学参数的宽频测试[J], 声学学报, 43(4): 677-688.

其余发表论文8篇:

[1] Nansha Gao, Hong Hou, Yihao Mu, Low frequency acoustic properties of bilayer membrane acoustic metamaterial with magnetic oscillator[J], Theoretical & Applied Mechanics Letters, 2017, 7(4): 252-257.

[2] Nansha Gao, Hong Hou, Sound absorption characteristic of micro-helix metamaterial by 3D printing[J], Theoretical & Applied Mechanics Letters, 2018, 8(2): 63-67.

[3] 高南沙, 李沛霖, 周文林, 侯宏, 四方折叠梁声子晶体低频带隙特性研究[J], 噪声与振动控制, 2019, 39(1): 17591(6).

[4] 程宝柱,高南沙,侯宏,赵江坤,一种同时具有声波调向和衰减功能的声学超表面[J],噪声与振动控制, 2018, 38(Z1): 215-218.

[5] 卫政宇,侯宏,高南沙,刘哲,基于波速法的黏弹性细棒力学参数宽频测试[J], 噪声与振动控制, 2019, 38(Z1): 487-490.

[6] Nansha Gao, Lie Yu, Research on Loss and Electromagnetic Heat Coupling of High Speed Permanent Magnet Synchronous Motor[C], IEEE International Conference on Mechatronics and Automation, August 4 to 7, 2013, p81-86, Takamatsu, Japan.

[7] Nansha Gao, Hong Hou, Acoustic properties of a honeycomb-silicone rubber acoustic metamaterial[C], 24th International Congress on Sound and Vibration, 2017, July 23-27, London, UK.

[8] Yanni ZHANG, Jie PAN, Kean CHEN, Nansha GAO, Underwater acoustic properties of a fluid-loaded and elastically coated plate with periodically attached distributed inhomogeneities[C], 2017, August 27-30, Hong Kong, China.  

1作者合著出版专著2部:

高南沙, 沈礼, 侯宏, 声子晶体减振降噪特性分析研究及应用[M], 西安: 西北工业大学出版社,2017.

高南沙, 路宽,辛航, 超材料低频振动噪声控制研究及应用[M], 北京: 电子工业出版社, 2018.

授权专利6项,详细如下:

[1] 基于多重共振耦合机理的具有低频带隙特性的三维径向声子晶体,CN206819730U,实用新型专利,中国。

[2] 一种三维局域共振型声子晶体,CN206946932U,实用新型专利,中国。

[3] 一种含有两个谐振器的二维声子晶体,CN207925129U,实用新型专利,中国。

[4] 一种均匀基质中的二维声子晶体,CN208014367U,实用新型专利,中国。

[5] 一种异型漏斗声学赫姆霍兹共振复合超结构,CN208157053U,实用新型专利,中国。

[6] 一种内嵌螺旋刚性结构的低频水下吸声结构,CN208256285U,实用新型专利,中国。


 

社会兼职 Social Appointments

中国航海学会会员,中国航空学会会员、中国声学学会会员、中国力学学会会员,中国汽车工程学会会员、美国声学学会会员,欧洲物理学会会员。Insight-mechanics和 Insight-mechanical Engineering 国际期刊编委,SCI期刊MSSP、JASA、JSV、AIAA、JVC、APL、JAP、JPD、APE、Composite Structures等长期审稿人

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声学感知与隐身团队


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