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【轨道说】(第2期)

时间:2019-10-21 00:00:00  作者:  发布者:  点击:

“轨道说”学术讲座(第二期)

讲座时间:2019年10月23日(周三)下午3点

讲座地点:轨道交通技术创新中心 教40-201会议室讲座专家:杨杰教授  墨尔本皇家理工大学

专家简介:

Dr.Yang is currently a full professor with the MechanicalAutomotiveEngineering Discipline, School of Engineering, RMIT University, Australia. Hewas a Postdoctoral Research Fellow at Department of Civil Engineering, theUniversity of Queensland2002-2004, a Lecturer at the Department ofBuildingConstruction, City University of Hong Kong2004-2007. Hejoined RMIT in 2008he was promoted to Senior Lecturer in 2010, AssociateProfessor in 2014Professor in 2016. His main research interests includeadvanced composite structures, nanocomposites, structural stability anddynamics, smart structurescontrol,nano/micro-mechanics. He is anauthor of over 270 publications including 200 SCI journal papers, among which12 are ESI (Essential Science Indicators) highly cited articles. Hispublications have so far attracted more than 8440 SCI citations with a personalSCI h-index 56.

Prof Yang is namedthe Research Field Leader in Mechanical Engineering in Australia, the AssociateEditor of  (1) Engineering Structures (JCR Q1), (2) Mechanics Based Designof StructuresMachines (JCR Q2);the Editorial Board Member of (1)Mechanics of Advanced MaterialsStructures (JCR Q1), (2) Thin-WalledStructures (JCR Q1), (3) International Journal of Structural Stability andDynamics (JCR Q2),(4) ShockVibration (JCR Q3). He is also the memberof Structural Stability Committee, ASCEserves as the reviewer for over 140international journalsthe assessor for government competitive researchgrants in Australia, Singapore, Israel, PolandHong Kong.

报告摘要:

NovelFG-GPLRCs are multilayer functionally graded materials reinforced with graphenenanoplatelets (GPLs) that are non-uniformly distributed in matrix according toa layer-wise variation. Such nanocomposite materials offer unique advantageswith significantly improved mechanical properties by making the best use of theextraordinary properties of graphene reinforcementsthe beneficialattributes of functionally graded materials to simultaneously meet differentstructural performance requirements, making it ideal candidate for thedevelopment of new generation composite structures. Since first proposed in2017, FG-GPLRC has become a fast growing emerging area of extensive researchefforts worldwide. This talk presents the latest developments in this area,with a particular focus on (1) the fabrication of FG-GPLRCitsstress-strain relationship; (2) atomistic study on its temperature-dependentmechanical propertiespull-out test with the effects of vacancy defects andhydrogen functionalization; (3) linearnonlinear dynamic behaviour ofFG-GPLRC structures; (4) key technical issuesmajor challenges for futureresearch on FG-GPLRC.


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