李延成

研究方向

智能材料与智能结构，结构控制，半主动控制，智能隔震，磁流变材料

工作经历

2018年3月--，教授（博导），新利18彩票 土木工程学院

2015年起，讲师（终身职位）,悉尼科技大学土木与环境工程学院

2013年1月-2015年11月，研究员，悉尼科技大学土木与环境工程学院

2010年1月-2012年12月，校长基金博士后研究员，悉尼科技大学土木与环境工程学院

2008年2月-2009年12月，博士后研究助理，悉尼科技大学土木与环境工程学院

教育经历

2004年9月-2007年6月，博士，南京理工大学，专业：机械工程

2002年9月-2004年6月，硕士，南京理工大学，专业：机械工程

1998年9月-2002年6月，学士，青岛大学，专业：机械电子工程

科研项目

[1]Li Yand Li J, “Smart cement-based concrete material via magnetorheological approach”,FEIT Blue Sky Grant, UTS, $4,500, Jul 2017-Dec 2017.

[2]Li J andLi Y, “Build-in Resillience with Smart Semi-passive Structural Members for Civil Engineering and Rail Applications”,FEITBlue Sky Grant, UTS, $20,000, Oct 2015-Feb 2016.

[3]Li Y, ‘Modelling and Fuzzy Semi‐Active Control of Seismically‐Excited Building incorporated with Newly Developed Adaptive MRE Base Isolator’,FEIT Research Seed Funding Grants, July 2014-Dec 2014, $3,000.

[4]Li Y,‘Development and Characterisation of A Novel Magnetorheological Elastomer Seismic Isolator for Intelligent Self-Adaptive Base Isolation System’,UTS Early Career Researcher Grants, Jan 2010-Dec 2011, $ 24,966.

[5]Li Y, ‘Development of an Intelligent Civil Structure Utilising Smart Structural Members’,UTS Chancellor’s Postdoctoral Research Fellowship, Jan 2010-Dec 2012, Research funding of $ 440,000.

[6]Guo YandLi Y‘Properties and Characterisation of Magnetorheological Materials under rotational Magnetic Field Excitation’,Australian Research Council Discovery Grant (DP1093788), Jan 2010-Dec 2012, $130,000.

[7]Lin Z, Zhu J, Philips M, Cortie M,Li Y, Yang W, ‘Synthesis and Characterization of a New Type of Soft Magnetic Composite for High Frequency Electromagnetic Device’,UTS Challenge Grants Scheme 2010Special Research Initiative ‘OWN THE FUTURE’, Jan 2010-Dec 2011, $34,400.

学术奖励

[1]Best Poster Award, 15th International Conference on Electrorheological Fluids and Magnetorheological Suspensions, July 4 (Mon.) – July 8 (Fri.) 2016, Ramada Songdo Hotel, Incheon, Korea

[2]‘Most cited articles published in 2013’: ‘Development and characterization of a magnetorheological elastomer based adaptive seismic isolator’, Smart Materials and Structures, by Li Y, Li J, Li W and Samali B, 2013, 22: 035005.

[3]‘Most cited articles published in 2013’: ‘A highly adjustable magnetorheological elastomer base isolator for applications on real-time adaptive control’, Smart Materials and Structures, by Li Y, Li J, Tian T and Li W, 2013, 22: 095020.

[4]‘Highlights of 2014’: ‘A state-of-the-art review on magnetorheological elastomer devices’, Smart Materials and Structures, by Li Y, Li J, Li W and Du H, 2014 23 123001

[5]Highly Commanded Award(Ranking No.3), Uniquest Trailblazer National Grand Final, ‘A Smart Seismic Base Isolator’, Brisbane, 4 September 2012

[6]UTS Winner(Staff Category), Uniquest Trailblazer Competition, ‘A Smart Seismic Base Isolator’, Sydney, 22 August 2012

[7]Chancellor’s Postdoctoral Research Fellowship, University of Technology Sydney, Jan 2010

科研成果

至今，共发表学术论文90余篇，其中SCI收录41篇，担任近30个SCI期刊的审稿人。十篇代表性论文如下：

[1]Yu Y.,Li Y.*, Li J, Gu X. and Roye S., Nonlinear characterisation of the MRE isolator using binary-coded discrete CSO and ELM, International Journal of Stability and Dynamics, 2018, 8:184007(SCI, IF: 1.028,Corresponding Author)

[2]Chen X.,Li Y.*,Li J and Gu X., A novel dual-loop adaptive control for minimizing time response delay in real-time structural vibration control with magnetorheological (MR) devices, Smart Materials and Structures, 2018, 27(1): 015005(SCI, IF: 2.909,Corresponding Author)

[3]Gu X., Yu Y., Li J andLi Y.*, Semi-active control of magnetorheological elastomer base isolation system utilising learning-based inverse model, Journal of Sound and Vibration, 2017, 406, 346-362. (SCI, IF: 2.107, Corresponding Author)

[4]Li Y.* and Li J., On rate-dependent mechanical model for adaptive magnetorheological elastomer base isolator, Smart Materials and Structures, 2017,26(4):045001 (SCI, IF: 2.909, Corresponding Author)

[5]Gu X.,Li Y.*and Li J, Investigations on response time of magnetorheological elastomer isolator for real-time control implementation, Smart Materials and Structures, 2016, 25(11): 11LT03 (SCI, IF: 2.909, Corresponding Author)

[6]Li Y.*and Li J., Finite element design and analysis of adaptive base isolator utilizing laminated multiple magnetorheological elastomer layers, Journal of Intelligent Material Systems and Structures, 2015, 26(14): 1861-1870 (SCI, IF: 2.255, Corresponding Author)

[7]Li Y.*and Li J., A highly-adjustable base isolator utilizing magnetorheological elastomer: experimental testing and modeling, ASME Journal of Vibration and Acoustics, 2015, 137(1): 011009 (SCI,IF: 1.692, invited paper, Corresponding Author).

[8]Li Y.*, Li J., Li W. and Du H., A state-of-the-art review on magnetorheological elastomer devices, Smart Materials and Structures, 2014, 23(12): 123001 (Invited paper, Featured Article, Highlights of 2014, SCI, IF: 2.909, Corresponding Author)

[9]Li Y.*, Li J., Tian T.and Li W., A highly adjustable magnetorheological elastomer base isolator for applications on real-time adaptive control, Smart Materials and Structures,2013, 22(9): 095020(SCI, IF: 2.909, Most cited articles published in 2013, Corresponding author)

[10]Li Y.*, Li J., Li W.and Samali B., Development and characterization of a magnetorheological elastomer based adaptive seismic isolator, Smart Materials and Structures. 2013, 22(3): 035005(SCI, IF: 2.909, Most cited articles published in 2013, Corresponding author)

联系方式

YANCHENG.LI@ME.COM