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| 姓名: | 黄铭枫 |
| 职称职务: | 副教授, 博士生导师 | |
| 联系电话: | 0571-88208728 | |
| 电子邮箱: | mfhuang@zju.edu.cn, hmfust@gmail.com | |
| 个人主页: | | |
| 个人简介:男, 博士,浙江诸暨人。浙江大学土木系副教授,入选浙江大学求是青年学者。1999年和2002年先后获得华中科技大学结构工程专业本科和硕士学位。硕士毕业后两年分别就职于阿特金斯顾问(ATKINS 深圳)和深圳市建筑科学研究院,任职结构工程师。2008年6月获得香港科技大学结构工程博士学位。主要研究方向为结构风工程、计算风工程和结构动力可靠度。作为负责人主持了国家自然科学基金项目、2011年交通部重大科技专项子项目、中国博士后科学基金特别资助项目和浙江省科技计划课题等10余项研究项目。已发表学术论文50余篇, 其中20余篇发表在国际SCI期刊上,突出研究成果包括结构工程领域国际主流期刊论文10余篇。出版英文专著《Optimum Stiffness Design of Wind-excited Tall Buildings》。长期担任Journal of Engineering Mechanics-ASCE和Journal of Structural Engineering-ASCE等国际期刊审稿人。自2013年起,担任国际SCI期刊WIND AND STRUCTURES, An International Journal (IF=1.254)编委。应邀担任2014年风和结构国际学术会议“The 2014 International Conference on Advances in Wind and Structures (AWAS14)”学术委员会委员。 | ||
| 主要学习、工作经历: 大学开始受教育经历 • 1995年-1999年,华中科技大学,土木工程系,本科 • 1999年-2002年,华中科技大学,土木工程系,硕士 • 2004年-2008年,香港科技大学,土木工程系,博士 研究工作经历 • 2008.6-2009.6,香港科技大学,土木工程系,博士后 • 2009.6-2011.6,浙江大学,建筑工程学院,博士后 • 2011.6-2011.12,浙江大学,建筑工程学院,结构工程研究所,讲师 • 2011.12-至今,浙江大学,建筑工程学院,副教授 主要科研项目: (1)国家自然科学基金面上项目(2012.1~2015.12):输电塔线体系覆冰舞动现场实测与塔体破坏机理研究,项目参与者。项目批准号:51178424; (2)交通运输部科技项目(2011.4~2014.12):特大型桥梁综合防灾减灾理论与方法研究,项目参与者。项目批准号:2011318223170; (3)国家自然科学基金青年项目(2011.1~2013.12):复杂高层建筑的风致动力效应和时变可靠度研究,项目负责人。项目批准号:51008275; (4)浙江省科技计划项目(2012.01-2014.01)超高层建筑风致灾变的高效低成本控制研究,项目负责人。项目批准号:2012C21059 (5)中国博士后科学基金会特别资助(2011.3~2011.12):超高层建筑风致振动的高效低成本减振方法研究,项目负责人。项目批准号:201104736; (6)中国博士后科学基金会(2009.12~2011.05):基于风洞实验和计算流体力学的复杂高层建筑风振性能优化设计,项目负责人。项目批准号:20090461382; (7)香港研资局基金项目(2007.1~2009.12):高层建筑的数值化风载预测及其气动形状的优化,项目参与者。项目编号:HKUST611006; (8)香港研资局基金项目(2005.1~2008.12):台风区域中高层建筑的创新科技,项目参与者。项目编号:CA04/05.EG01; (9)负责或参与完成的相关重大工程咨询项目:①610米高新广州电视塔工程抗风性能评估及结构优化分析;②天津高银117大厦(高597米) 抗风设计优化项目;③杭州高铁东站大跨结构风洞试验项目;④舟山大跨越输电铁塔(高370米)风洞试验项目。 奖励、荣誉或社会兼职: • 国际SCI期刊Wind and Structures编委(2013-) • 2014年风和结构国际学术会议“The 2014 International Conference on Advances in Wind and Structures (AWAS14)”学术委员会委员 • 第十五届全国结构风工程学术会议大会组织委员会委员(2011) • 国际学术期刊Journal of Structural Engineering-ASCE审稿人 • 国际学术期刊Journal of Engineering Mechanics-ASCE审稿人 • 国际学术期刊Engineering Structures审稿人 • 国际学术期刊Structure and Infrastructure Engineering审稿人 • 浙江大学求是青年学者(2011) • 2011年度校优秀德育导师 论文或著作: [1] Huang MF, Pan X, Lou W, Chan CM and Li QS. 2014. Hermite extreme value estimation of non-Gaussian wind load process on a long-span roof structure. Journal of Structural Engineering, ASCE, http://dx.doi.org/10.1061/(ASCE)ST.1943-541X.0000962 (SCI) [2] Huang MF, Chan CM, Lou WJ, Bao S. 2014. Time-domain Dynamic Drift Optimization of Tall Buildings Subject to Stochastic Wind Excitation. Structure and Infrastructure Engineering, http://dx.doi.org/10.1080/15732479.2013.850729 (SCI) [3] Lou WJ, Lv J, Huang MF, Yang L, Yan D. 2014. Aerodynamic force characteristics and galloping analysis of iced bundled conductors. Wind and Structures, Vol. 18, No. 2, 135-154. (SCI) [4] Yiu CF, Chan CM, Huang MF, Li G. 2013. Evaluation of lateral-torsional coupling in earthquake response of asymmetric multistory buildings. Journal of Structural Design of Tall and Special Buildings, (DOI: 10.1002/tal.1102) (SCI) [5] Huang MF, Lou W, Chan CM, Lin N and Pan X. 2013. Peak distributions and peak factors of wind-induced pressure processes on tall buildings. Journal of Engineering Mechanics, ASCE, 139(12), 1744–1756. (SCI) [6] Huang MF, Lou WJ, Chan CM, Bao S. 2013. Peak factors of non-Gaussian wind forces on a complex-shaped tall building. Journal of Structural Design of Tall and Special Buildings, 22(14), 1105–1118. (DOI: 10.1002/tal.763) [7] Lou WJ, Huang MF, Zhang M, Lin N. 2012. Experimental and zonal modeling for wind pressures on double-skin facades of a tall building. Energy and Buildings, 54:179-191. (SCI) [8] Huang MF, Chan CM, and Lou WJ. 2012. Optimal performance-based design of wind sensitive tall buildings considering uncertainties. Computers and Structures, 98-99(7-16). (SCI) [9] Huang MF, Chan CM, Lou WJ and Kwok KCS. 2012. Statistical extremes and peak factors in wind-induced vibration of tall buildings. Journal of Zhejiang University-SCIENCE A (Applied Physics and Engineering), 13(1):18-32. (SCI) [10] Huang MF, Chan CM, Lou WJ and Kwok KCS. 2012. Statistical extremes and peak factors in wind-induced vibration of tall buildings. Journal of Zhejiang University-SCIENCE A (Applied Physics and Engineering), 13(1):18-32. (SCI) [11] Huang MF, Chan CM, Kwok KCS. 2011. Occupant comfort evaluation and wind-induced serviceability design optimization of tall buildings. Wind and Structures, 2011, 14(6):559-582. (SCI) [12] Huang MF, Tse KT, Chan CM, and Lou WJ. 2011. Integrated structural optimization and vibration control for improving wind-induced dynamic performance of tall buildings. International Journal of Structural Stability and Dynamics, 2011, 11(6):1139-1161. (SCI) [13] Huang MF, Lau IWH, Chan CM, Kwok KCS and Li G. 2011. A hybrid RANS and kinematic simulation of wind load effects on full-scale tall buildings. Journal of Wind Engineering and Industrial Aerodynamics, 2011, 99(11):1126–1138. (SCI) [14] Huang MF, Tse KT, Chan CM, Kwok KCS, Hitchcock PA, Lou WJ. 2011. Mode shape linearization and correction in coupled dynamic analysis of wind-excited tall buildings. Journal of Structural Design of Tall and Special Buildings, 2011, 20(3):327-348 (doi: 10.1002/tal.620). (SCI) [15] Huang MF, Lou WJ, Yang L, Sun BN, Shen GH, and Tse KT. 2010. Experimental and computational simulation for wind effects on the Zhoushan transmission towers. Structure and Infrastructure Engineering (doi:10.1080/15732479.2010.497540 ). (SCI) [16] Lou WJ, Huang MF, Jin H, Shen GH, and Chan CM. 2010. Three-dimensional Wind load effects and wind-induced dynamic responses of a tall building with X-shape. Journal of Structural Design of Tall and Special Buildings, 2010, 19(8):885-900 (doi: 10.1002/tal.514). (SCI) [17] Huang MF, Tse KT, Chan CM, Kwok KCS, Hitchcock PA, Lou WJ, Li G. 2010. An integrated design technique of advanced linear-mode-shape method and serviceability drift optimization for tall buildings with lateral-torsional modes. Engineering Structures, 32(8):2146-2156. (SCI) [18] Chan CM, Huang MF, and Kwok KCS. 2010. Integrated wind load analysis and stiffness optimization of tall buildings with 3D modes. Engineering Structures, 32(5):1252-1261. (SCI) [19] Huang MF, Zhu C, Chan CM, Kwok KCS, and Lou WJ. 2010. A peak factor for predicting non-Gaussian peak resultant response of wind-excited tall building. Journal of Wind & Engineering, 7(2):1-9. [20] Bao S, Jin WL, Huang MF, Bai Y. 2010. Piezomagnetic hysteresis as a non-destructive measure of the metal fatigue process. NDT&E International, 43:706-712. (SCI) [21] Huang MF, Chan CM, Kwok KCS, and Hitchcock PA. 2009. Cross correlation of modal responses of tall buildings in wind-induced lateral-torsional motion. Journal of Engineering Mechanics, ASCE, 135 (8):802-812. (SCI) [22] Chan CM, Huang MF, and Kwok KCS. 2009. Stiffness optimization for wind-induced dynamic serviceability design of tall buildings. Journal of Structural Engineering, ASCE, 135 (8):985-997. (SCI) [23] Chan CM, Chui JKL, and Huang MF. 2009. Integrated aerodynamic load determination and stiffness optimization of tall buildings. Journal of Structural Design of Tall and [24] Tse T, Kwok KCS, Hitchcock PA, Samali B and Huang MF. 2007. Vibration control of a wind-excited benchmark tall building with complex lateral-torsional modes of vibration. Advances in Structural Engineering, 10(3):283-304. (SCI) [25] 楼文娟, 李进晓, 沈国辉, 黄铭枫. 超高层建筑脉动风压的非高斯特性. 浙江大学学报(工学版), 2011, 45 (4):671-677. [26] 林巍, 楼文娟, 申屠团兵, 黄铭枫. 高层建筑脉动风压的非高斯峰值因子方法. 浙江大学学报(工学版), 2012, 46(4): 691-697. [27] 章李刚,楼文娟,黄铭枫. 2012. 基于POD法控制模态选择的大跨屋盖风振响应分析. 浙江大学学报(工学版), 46(9): 1659-1604. [28] 黄铭枫. 基于风振性能的高层建筑抗风设计优化. 工程力学, 2013, 30(2): 240-246. [29] 林巍, 黄铭枫,郭中秀, 楼文娟. 2012. 台风下香港K 11大楼风振响应实测及分析. 深圳大学学报理工版. 29(1): 45-50. [30] 杨伦, 黄铭枫, 楼文娟. 高层建筑周边三维瞬态风场的混合数值模拟. 浙江大学学报(工学版), 2013,47(5): 824-830. [31] 涂志斌 黄铭枫 楼文娟. 2013. 基于Copula函数的高层建筑动力风荷载相关性组合. 浙江大学学报(工学版), 已录用 [32] 潘小涛 黄铭枫 楼文娟. 2013. 复杂体型屋盖表面风压的高阶统计量与非高斯峰值因子. 工程力学, 已录用 教学工作: [1]. 弹性力学(双语),本科生课程 [2]. 工程弹塑性力学,研究生课程 | ||
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