个人简介
庞福振,博士,龙江学者,黑龙江省青年科技奖获得者。一直从事舰船结构振动与噪声、船舶与海洋工程结构动力学、流固耦合等方向的研究,主持和参与国家科技部重点研发计划课题、国家自然科学基金、总装基金、省基金、国防预研及型号科研等项目30余项。获国家技术发明二等奖1项,黑龙江省科技进步一等奖1项、教育部高等学校科学研究优秀成果奖科技进步二等奖1项,军队科技进步一等奖1项,国防科技进步一等奖1项、国防科技进步二等奖1项、三等奖4项,黑龙江省科技进步二等奖2项,黑龙江省高校科技进步一等奖1项;在国内外高水平学术期刊上发表学术论文100余篇,其中SCI收录20余篇,EI收录60余篇;发明专利20余项;软件著作权5项,参编国家级教材3部。
教育经历
2013/1 - 2016/10,海军装备研究院,博士后
2009/9 - 2012/6,哈尔滨工程大学,船舶与海洋结构物设计与制造专业,博士
2006/10 - 2007/9,波兰Gdansk理工大学,访问学者
2003/9 - 2006/3,哈尔滨工程大学,船舶与海洋结构物设计与制造专业,硕士
1999/9 - 2003/7,哈尔滨工程大学,船舶与海洋结构物设计与制造专业,学士
工作经历
2018/6-迄今, 哈尔滨工程大学,船舶工程学院,教授
2012/9 - 2018/6,哈尔滨工程大学,船舶工程学院,副教授
2008/4 - 2012/8,哈尔滨工程大学,船舶工程学院,讲师
2005/7 - 2008/3,哈尔滨工程大学,船舶工程学院,助教
承担项目
1. 2017.1-2019.12,国家科技部重点研发计划,冰区平台立管设计技术研究,课题负责人,在研
2. 2016.1-2020.12,国家高技术船舶科研计划项目,第七代半潜式海洋平台创新专项课题—振动噪声控制技术研究,课题技术负责人,在研
3. 2017.1-2019.12,国家高技术船舶科研计划项目,第七代半潜支持平台创新专项课题—振动噪声预报与控制技术,子课题负责人,在研
4. 2017.1-2020.12,十三五国防预研,维修阶段*性能评估技术,项目负责人,在研
5. 2017.1-2020.12,十三五国防预研,***综合***评估技术及方案研究,项目负责人,在研
6. 2016.4-2018.6,**研究院,***减隔振试验评估模块研制,项目负责人,在研
7. 2016.4-2018.6,**研究院,舱室空气噪声评估模块开发及验证,项目负责人,在研
8. 2017.1-2018.12,总装基础基金,基于大系统理论及波动分析的船舶结构振动噪声预报方法研究,项目负责人,在研
9. 2015.1-2017.12,国家高技术船舶科研计划项目,医院船振动计算,项目负责人,在研
10. 2017.1-2019.12,国家高技术船舶科研计划项目,大洋勘探船减振降噪设计技术研究,项目负责人,在研
11. 2017.1-2018.6,中船重工第701研究所,复合材料上层建筑振动声辐射特性分析及试验研究,项目负责人,在研
12. 2015.1-2015.12,中船工业第708所,1500吨***舱室噪声计算,项目负责人,结题
13. 2017.1-2019.12,中船重工第719所,多层复合结构声学性能优化设计研究,项目负责人,在研
14. 2014.10-2014.12,国防科技大学机电学院,新型隔声去耦材料大样模型试验研究,项目负责人,结题
15. 2009.01-2010.12,国防项目,**新型隔声去耦材料大样试验研究,项目负责人,结题
16. 2015.5-2016.8,系统工程研究院,船舶辐射噪声快速计算方法,项目负责人,结题
17. 2014.8-2014.12,中海油设计公司,黄岩气田开发项目详细设计噪音分析,项目负责人,结题
18. 2014.01-2015.12,中国博士后基金,2014M552661、**结构振动噪声时频评估方法研究,项目负责人,结题
19. 2013.01- 2015.12,国家自然科学基金青年基金项目,51209052,船舶“设备-基座”变参数系统复杂振动机理研究,项目负责人,结题
20. 2012/01-2014/12,黑龙江省基金,QC2011C013、“设备-基座”系统非线性振动机理研究,项目负责人,结题
学术交流
1. 2017.7,The 24th International Congress on Sound and Vibration, Acoustic time-frequency prediction simulation method in ship structure, Invited lecture ,London, UK
2. 2017.7,The 24th International Congress on Sound and Vibration, Investigation of elliptical sonic metamaterials, Invited lecture ,London, UK
3. 2016.8, 45th International Congress and Exposition on Noise Control Engineering. Underwater Noise Radiation Optimization of a Scientific Investigation Ship, Invited lecture ,Hamburg, Germany
4. 2016.8, 45th International Congress and Exposition on Noise Control Engineering. Experimental research on hydrodynamic noise of a Cone-cylinder combined structure, Invited lecture ,Hamburg, Germany
5. 2015.8, 44th International Congress and Exposition on Noise Control Engineering. The application of impedance analysis method in dynamic response analysis of ship, Invited lecture ,San Francisco, USA
6. 2015.8, 44th International Congress and Exposition on Noise Control Engineering.. Research on the acoustic radiation characteristics of the submarine ship structure, Invited lecture ,San Francisco, USA
7. 2014.8, 43rd International Congress on Noise Control Engineering. Research on vibration and sound radiation characteristics of ship stiffened composite plate structure, Invited lecture , Melbourne Australia
8. 2014.8,43rd International Congress on Noise Control Engineering.Moving boundary similarity method and its application on ship structural borne noise prediction, Invited lecture , Melbourne Australia
招生信息
可招收船舶与海洋工程结构物设计制造(结构振动噪声控制)博士研究生,船舶与海洋工程结构物设计制造硕士研究生,力学硕士研究生。
本科生授课课程
船舶与海洋工程结构力学
研究生授课课程
船舶与海洋工程结构动力分析
专利成果
1. 一种拉伸式便携救生艇,2017.07.04,发明专利,专利号:ZL201710069392.0,排名第3
2. 基于界面效应的锯齿形高阻尼合金板,2016.03.15, 专利号:ZL201610867272.0,排名第1
3. 一种六自由度激振器的简易吊装装置,2016.12.07, 专利号:ZL201610663455.0,排名第1
4. 预拉伸式力学环境模拟仪,2015.6.12,实用新型,专利号: ZL201520073741.2,排名第1
5. 风振涡放频率试验装置,2015.06.17, 专利号:ZL201510054159.6,排名第1
6. 舷间可调式宽频吸振隔声器,2013.6.12,发明专利,专利号: ZL201310122147.3,排名第1
7. 低噪声海底阀箱,2012.6.20,发明专利,专利号: ZL201210202908.1,排名第1
8. 不平衡激扰力作用下的设备内源特性测量方法[P],2012.11.07, 专利号:ZL201210172286.2,排名第1
9. 垂向不平衡激励力作用下设备对船体结构激励载荷的间接测试方法,2012.09.26, 专利号:ZL201210185488.0,排名第1
10. 不平衡激扰力及不平衡激扰力矩联合作用下的设备内源激励载荷定量测试方法,2012.10.03,专利号:ZL201210172287.7,排名第1
11. 不平衡激励力及不平衡弯矩联合作用时设备对船体激励载荷的间接测量方法,2012.09.19, 专利号:ZL201210185489.5,排名第1
12. 船用磁流变弹性体智能吸振器,2009.6.7,发明专利,专利号: ZL200910071707.0,排名第1
13. 流激涡放频率实验装置,2017.05.10,发明专利.申请号:CN106644332A,排名第1
14. 烟囱式低噪声海底阀箱,2013.09.25,申请号:CN103318399A,排名第1
15. 导流消声风管结构,2013.04.17,申请号:CN103047488A,排名第1
16. 分流消声风管,2013.04.03,申请号:CN103016859A,排名第1
17. 水下自适应曲面复合声学材料,2012.07.11,申请号:CN102568465A,排名第1
18. 可控型水下吸声板,2011.6.13,发明专利,专利号: ZL201110139801.2,排名第3
19. 船用磁流变弹性体智能阻尼器,2009.6.7,发明专利,专利号:ZL200910071708.5,排名第2
20. 舰船舱壁阻振质量刚性隔振结构,2009.6.7,发明专利,专利号: ZL200910073173.5,排名第3
21. 舰船高传递损失基座结构,2009.6.7,发明专利,专利号: ZL200910073174.X,排名第3
出版著作
船舶结构振动与噪声
荣誉
1. 2019年入选龙江学者支持计划
2. 2019年黑龙江省青年科技奖获得者
奖励
1.黑龙江省科学技术奖科技进步一等奖,2017;
2.国家科学技术奖科技发明二等奖,2018;
3.教育部高等学校科学研究优秀成果奖科技进步二等奖,2019;
4.国防科技进步一等奖,2017;
5.黑龙江省科学技术奖科技进步二等奖,2017;
6.黑龙江省科学技术奖科技进步二等奖,2016;
7.国防科技进步三等奖,2016;
8.军队科技进步奖一等奖,2015年;
9.国防科技进步奖二等奖,2012年;10.国防科学技术进步奖三等奖,2011年;
10.国防科学技术进步奖三等奖,2010年;
11.国防科学技术进步奖三等奖,2008年;
12.国防科学技术进步奖三等奖,2011年;
近期论文
查看导师最新文章
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[1]. Li H, Pang F, Chen H. A semi-analytical approach to analyze vibration characteristics of uniform and stepped annular-spherical shells with general boundary conditions[J]. European Journal of Mechanics-A/Solids, 2019, 74: 48-65. WOS:000458221500005
[2]. Li H, Pang F, Chen H, et al. Vibration analysis of functionally graded porous cylindrical shell with arbitrary boundary restraints by using a semi analytical method[J]. Composites Part B: Engineering, 2019, 164: 249-264. WOS: 000463297300027
[3]. Pang F, Li H, Wang X, et al. A semi analytical method for the free vibration of doubly-curved shells of revolution[J]. Computers & Mathematics with Applications, 2018, 75(9): 3249-3268. WOS:000432102900014
[4]. Li H, Pang F, Miao X, et al. A semi-analytical method for vibration analysis of stepped doubly-curved shells of revolution with arbitrary boundary conditions[J]. Thin-Walled Structures, 2018, 129: 125-144. WOS:000438000200010
[5]. Li H, Pang F, Gong Q, et al. Free vibration analysis of axisymmetric functionally graded doubly-curved shells with un-uniform thickness distribution based on Ritz method[J]. Composite Structures, 2019: 111145. WOS: 000480330400062
[6]. Pang F, Li H, Cui J, et al. Application of flügge thin shell theory to the solution of free vibration behaviors for spherical-cylindrical-spherical shell: A unified formulation[J]. European Journal of Mechanics-A/Solids, 2019, 74: 381-393. WOS: 000458221500027
[7]. Li H, Pang F, Miao X, et al. Jacobi–Ritz method for free vibration analysis of uniform and stepped circular cylindrical shells with arbitrary boundary conditions: A unified formulation[J]. Computers & Mathematics with Applications, 2019, 77(2): 427-440. WOS: 000458345600009
[8]. Pang F, Gao C, Cui J, et al. A Semianalytical Approach for Free Vibration Characteristics of Functionally Graded Spherical Shell Based on First-Order Shear Deformation Theory[J]. Shock and Vibration, 2019, 2019. WOS: 000472902200001
[9]. Pang F, Li H, Jing F, et al. Application of First-Order Shear Deformation Theory on Vibration Analysis of Stepped Functionally Graded Paraboloidal Shell with General Edge Constraints[J]. Materials, 2019, 12(1): 69. WOS:000456410200069
[10]. Pang F, Li H, Miao X, et al. A modified Fourier solution for vibration analysis of moderately thick laminated annular sector plates with general boundary conditions, internal radial line and circumferential arc supports[J]. Curved and Layered Structures, 2017, 4(1): 189-220. (SCI)
[11]. Fuzhen Pang, Haichao Li*, Kwangnam Choe, Dongyan Shi, Kwanghun Kim"Free and forced vibration analysis of airtight cylindrical vessels with doubly-curved shells of revolution by using Jacobi-Ritz Method", Shock and Vibration, 2017, (SCI)
[12]. Li H, Pang F*, Wang X, et al. Benchmark Solution for Free Vibration of Moderately Thick Functionally Graded Sandwich Sector Plates on Two-Parameter Elastic Foundation with General Boundary Conditions[J]. Shock and Vibration, 2017,(SCI)
[13]. Pang, Fu-Zhen* ; Wu, Chuang; Miao, Xu-Hong; Song, Hong-Bao. Tranferred boundary similarity method and application to the prediction of ship vibration and radiated noise[J]. Noise Control Engineering Journal, 2015, 63(4):318-330.(SCI)
[14]. Shi, Z., X. Yao, F. Pang* and Q. Wang (2017). "An exact solution for the free-vibration analysis of functionally graded carbon-nanotube-reinforced composite beams with arbitrary boundary conditions." Scientific Reports 7(1): 12909.(SCI)
[15]. Shi, Z., X. Yao, F. Pang* and Q. Wang (2017). "A semi-analytical solution for in-plane free vibration analysis of functionally graded carbon nanotube reinforced composite circular arches with elastic restraints." Composite Structures 182: 420-434. (SCI)
[16]. WU C, PANG F*. FREE VIBRATION CHARACTERISTICS OF THE CONICAL SHELLS BASED ON PRECISE INTEGRATION TRANSFER MATRIX METHOD[J]. Latin American Journal of Solids and Structures, 2017, 13. (SCI)
[17]. Yao, Xiong-Liang, Tang, Dong; Pang, Fu-Zhen*;Li, Shuo. Exact free vibration analysis of open circular cylindrical shells by the method of reverberation-ray matrix[J]. Journal of Zhejiang Universityence A, 2016, 17(4):295-316.(SCI)
[18]. Jin, Ye-qing; Pang, Fu-zhen*; Yang, Fei ; Li, Guang-ming. A General Model for Analysis of Sound Radiation from Orthogonally Stiffened Laminated Composite Plates[J]. China Ocean Engineering,2014,28(4):457-470. (SCI)
[19]. Ye, Xi; Pang, Fu-Zhen; Zhang, A-Man*. Acoustic radiation induced by bubble motion in compressible fluid[J]. Applied Mathematics and Mechanics(English Edition),2014, 35(2):177-190.( SCI)
[20]. Li L, Li H, Pang F, et al. The modified Fourier-Ritz approach for the free vibration of functionally graded cylindrical, conical, spherical panels and shells of revolution with general boundary condition[J] ,2017,Mathematical Problems in Engineering (SCI)
[21]. Pang, Fuzhen ; Shen, Zhe ; Wu, Chuang ; Li, Haichao .The acoustic time-frequency complex prediction method of ship and ocean structure [C]. 45th International Congress and Exposition on Noise Control Engineering: Towards a Quieter Future, INTER-NOISE 2016.2016.8.21-2016.8.24. Hamburg, Germany.pages:6622-6632.(EI)
[22]. Pang, Fuzhen; Shen, Zhe; Li, Haichao ; Xue, Yanzhuo.Research on ice-breaking induced vibration characteristic of a Ship[C]. 45th International Congress and Exposition on Noise Control Engineering: Towards a Quieter Future, INTER-NOISE 2016.2016.8.21-2016.8.24. Hamburg, Germany. pages:6633-6639.(EI)
[23]. Pang, Fu-Zhen; Song, Hong-Bao; Wang, Xue-Ren ; Wu, Chuang .The application of impedance analysis method in dynamic response analysis of ship[C]. 44th International Congress and Exposition on Noise Control Engineering, INTER-NOISE 2015.2015.8.9-2015.8.12. San Francisco, CA, United states .(EI)
[24]. Pang, Fu-Zhen ; Song, Hong-Bao ; Wang, Xue-Ren ; Wu, Chuang.Research on the acoustic radiation characteristics of the submarine ship structure[C]. 44th International Congress and Exposition on Noise Control Engineering, INTER-NOISE 2015.2015.8.9-2015.8.12. San Francisco, CA, United states .(EI)
[25]. Pang, Fuzhen ; Wu, Chuang ; Wang, Qingshan ; Song, Hongbao.Analysis of acoustic radiation of a ring-stiffened cylindrical shell in underwater based on precise integration transfer matrix method[C] 43rd International Congress on Noise Control Engineering: Improving the World Through Noise Control, INTERNOISE 2014 .2014.11.16-2014.11.19. Melbourne, VIC, Australia. (EI)
[26]. Pang, Fu-Zhen ; Miao, Xu-Hong ; Tang, Dong ; Song, Hong-Bao.Moving boundary similarity method and its application on ship structural borne noise prediction[C]. 43rd International Congress on Noise Control Engineering: Improving the World Through Noise Control, INTERNOISE 2014,2014.11.16-2014.11.19, Melbourne, VIC, Australia(EI)
[27]. 庞福振,吴闯*,缪旭弘,王雪仁,贾地. 设备振动内源参数识别方法[J]. 振动工程学报,2017,30(02):325-332.(EI)
[28]. 庞福振,宋红宝*,缪旭弘,王雪仁.阻抗分析法在船舶结构动力响应分析中的应用研究[J]. 振动与冲击,2016,35(18):17-22. (EI)
[29]. 庞福振*,陈林,缪旭弘,姚熊亮. 无限大正交加筋层合板的隔声性能分析[J]. 上海交通大学学报,2014,48(8):1090-1096.(EI)
[30]. 庞福振*,姚熊亮,缪旭弘,贾地. 设备对船体结构的激励力及其应用研究[J]. 工程力学,2012,29(7):283-290.(EI)
[31]. Jia, Di*; Pang, Fu-Zhen; Yin, Xu-Chao ; Ye, Xi. Study on the Vibro-Acoustic Characteristics of a Vibration Isolation Mass Structure with Composite Braces[C]. 2011 International Conference on Applied Mechanics, Materials and Manufacturing ,ICAMMM Shenzhen, 2011.China. 117-119:85-88. (EI)
[32]. Wang, Qingshan*; Pang, Fuzhen ; Qin, Bin ; Liang, Qian. A unified formulation for free vibration of functionally graded carbon nanotube reinforced composite spherical panels and shells of revolution with general elastic restraints by means of the Rayleigh–Ritz method[J]. Polymer Composites, 2017.(EI)
[33]. 庞福振,吴闯,缪旭弘,等. 设备振动内源参数识别方法[J]. 振动工程学报, 2017, 325-332.
[34]. 庞福振,姚熊亮,缪旭弘等,加筋球壳结构稳定性及其优化研究,机械强度,2012,34(3):30-38
[35]. 庞福振, 姚熊亮, 贾地等,吸声尖劈对板柱组合结构水下声学特性影响的试验研究,船舶力学, 2011, 15(5): 570-576
[36]. 庞福振, 姚熊亮,声学覆盖层对潜艇抗水下爆炸能力的影响研究,振动与冲击, 2011, 30(4): 103-108
[37]. 庞福振, 姚熊亮, 朱理,船舶结构高阶动力分析的模型简化方法研究,船舶力学, 2010, 14(11): 1263-1275
[38]. 庞福振, 姚熊亮, 缪旭弘等,设备对船体结构的激励力及其应用研究,工程力学, 2012, 29(7): 283-290
[39]. 庞福振, 康逢辉, 孙龙泉等,复杂锥柱结构中频水下声辐射特性研究,哈尔滨工业大学学报, 2011 (S1): 42-46
[40]. 庞福振, 姚熊亮, 孙龙泉等,敷设吸声尖劈的声纳平台水下声学特性试验研究,华中科技大学学报: 自然科学版, 2011, 39(4): 106-109
[41]. 朱理,庞福振,康逢辉. 螺旋桨激励力下的舰船振动特性分析[J]. 中国造船,2011,52(02):8-15
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