洪友士 - 中国科学院力学研究所 -

当前位置： X-MOL首页 › 全球导师 › 国内导师 › 洪友士

洪友士博士研究员博士生导师收藏完善纠错
中国科学院力学研究所
登录后才能查看导师的联系方式，马上登录...

个人简介

简历：洪友士，博士，研究员，博士生导师。曾任中科院力学所所长（1998–2006）,副所长（1994–1998）。主要学术兼职：“Fatigue&Fract.ofEng.Mater.&Struct.”主编（Editor-in-Chief）（2012–），国务院学位委员会学科评议组力学组成员（2009–）。曾任中国力学学会副理事长（1998–2002，2010–2014）、秘书长（1994–1998）。曾任“ScienceChina-PhysicsMechanics&Astronomy”和《中国科学：物理学力学天文学》副主编（2008–2017），“ActaMechanicaSinica”和《力学学报》副主编（2004–2011），《力学进展》副主编，（2002–2012）。 1977年毕业于清华大学机械工程系，1981年在清华大学机械工程系获硕士学位。1981年起在中科院力学所工作，1991年在中科院力学所获博士学位。1985年至1986年在加拿大渥太华物理冶金研究所从事断裂力学与断裂物理的合作研究，1989年至1990年在英国谢菲尔德大学机械与化工系从事疲劳短裂纹与缺口裂纹分析的合作研究。研究领域为材料力学性能，断裂力学与结构力学。主要学术成果有：提出了合金材料超高周疲劳裂纹萌生存在内禀特征区的新观点，揭示了裂纹萌生特征区形成机理并提出了描述模型，提出了裂纹表面和内部萌生竞争模型；提出了材料中疲劳短裂纹“群体损伤”和“群体演化”的学术概念，揭示了微结构影响短裂纹群体损伤演化的机制；表明了亚微米/纳米材料中微结构影响塑性变形的规律；获得了孔边裂纹断裂力学解答并用于孔边疲劳裂纹扩展模型；揭示了材料微结构影响断裂和应力腐蚀开裂的机制，提出了计及微结构作用的应力腐蚀开裂模型；提出了水中悬浮隧道动力响应过程的“协同浮重比”和“松弛–张紧区域图”新概念。相关成果用于成功解决悬索大桥国产高强度钢丝的高强韧性问题和高铁车轴的损伤容限与安全寿命评估问题。 2017年当选亚太材料科学院院士。发表论文310余篇；获授权专利14项。获2013年度国家自然科学二等奖（第三获奖人），获1996年度中科院自然科学一等奖（第二获奖人），获1995年度国家杰出青年科学基金，是全国（首批）“百千万人才工程”1995/1996年度第一、二层次入选者，1998年被评为中科院有突出贡献的中青年专家。已培养博士22名，硕士15名；其中1名获中科院院长奖学金优秀奖，1名获刘永龄奖学金，1名获郭永怀奖学金一等奖，3名获郭永怀奖学金二等奖等。现指导博士生3名，硕士生1名。获1999年度中科院“华为奖教金”，获2011年度中科院“朱李月华优秀教师奖”，获2016年度中科院教育教学成果二等奖。社会任职： “Fatigue&Fract.ofEng.Mater.&Struct.”主编（Editor-in-Chief），2012.1–；“Sci.China–Phys.,Mech.&Astron.”和《中国科学：物理学力学天文学》副主编，2008.1–2017.12；“ActaMech.Sin.”和《力学学报》副主编，2004.1–2011.8；《力学进展》副主编，2002.1–2012.12 FarEastandOceanicFractureSociety,Director,2007.8–2016.8；中国力学学会副理事长，1998.11–2002.11，2010.10–2014.11；中国力学学会秘书长，1994.8–1998.11；中国材料研究学会常务理事，2003.11–2011.9 国务院学位委员会学科评议组力学组成员，2009.3–；中国科学院研究生院（中国科学院大学）学位委员会委员，2004.1–2013.7；中国科学院研究生院（中国科学院大学）物理学科群学位委员会副主席，2004.1–2017.5；中国科学院大学工程科学学科群学位委员会副主席，2017.6– 获奖及荣誉： 2017年当选亚太材料科学院院士获2013年度国家自然科学二等奖“纳米结构材料力学行为尺度效应的微观机理研究”（第三获奖人）获1996年度中国科学院自然科学一等奖“含异相材料的损伤与断裂”（第二获奖人）获1995年度国家杰出青年科学基金 1998年被评为中国科学院有突出贡献的中青年专家全国（首批）“百千万人才工程”1995/1996年度第一、二层次入选者获1999年度中国科学院“华为奖教金”（中国科学院优秀研究生导师奖）获2011年度中国科学院“朱李月华优秀教师”奖获2016年度中国科学院教育教学成果二等奖（第一获奖人）获中国科学院优秀领导班子奖（1999）获中国科学院研究所所长荣誉奖（2006）

研究领域

固体力学，材料力学性能与内部结构，断裂力学，疲劳损伤

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

1.洪友士*，孙成奇，刘小龙.合金材料超高周疲劳的机理与模型综述.《力学进展》(2018),Vol.48,201801.（65p） 2.PANXiangnan,SUHang,SUNChengqiandHONGYoushi*.Thebehaviorofcrackinitiationandearlygrowthinhigh-cycleandvery-high-cyclefatigueregimesforatitaniumalloy.InternationalJournalofFatigue,2018,https://doi.org/10.1016/j.ijfatigue.2018.03.021 3.HUYuanpei,SUNChengqiandHONGYoushi*.Crackgrowthratesandmicrostructurefeatureofinitiationregionforvery-high-cyclefatigueofahigh-strengthsteel.Fatigue&FractureofEngineeringMaterials&Structures,2018,https://doi.org/10.1111/ffe.12811 4.SUHang,LIUXiaolong,SUNChengqiandHONGYoushi*.Nanograinlayerformationatcrackinitiationregionforvery-high-cyclefatigueofaTi-6Al-4Valloy.Fatigue&FractureofEngineeringMaterials&Structures,2017,Vol.40,p.979–993. 5.HONGYoushi*andSUNChengqi.Thenatureandthemechanismofcrackinitiationandearlygrowthforvery-high-cyclefatigueofmetallicmaterials–anoverview.TheoreticalandAppliedFractureMechanics,2017,Vol.92,p.331–350. 6.ZHANGShijia,XIEJijia,JIANGQingqing,ZHANGXiaole,SUNChengqiandHONGYoushi*.Fatiguecrackgrowthbehavioringradientmicrostructureofhardenedsurfacelayerforanaxlesteel.MaterialsScience&EngineeringA,2017,Vol.700,p.66–74. 7.KANGLing,GEFei,WUXiaodongandHONGYoushi*.Effectsoftensiononvortex-inducedvibration(VIV)responsesofalongtensionedcylinderinuniformflows.ActaMechanicaSinica,2017,Vol.33,p.1–9. 8.HONGYoushi*,JIANGQingqingandSUNChengqi.EffectsofinducedsurfacedefectsoncrackinitiationandfatiguestrengthofHCFandVHCFforastructuralsteel.InvitedLecture,TMS146thAnnualMeeting&Exhibition,SanDiego,California,USA,February26–March2,2017,p.225. 9.HONGYoushi*,SUHang,LIUXiaolongandSUNChengqi.Characteristicsandmechanismofcrackinitiationandearlygrowthofatitaniumalloyinhigh-cycleandvery-high-cyclefatigueregimes.Invitedlecture,CharacterisationofCrackTipFields,4thIJFatigue&FFEMSJointWorkshop,Bonifacio,France,April10–12,2017. 10.HONGYoushi*,JIANGQingqingandSUNChengqi.Effectsofinducedsurfacenotchesonfatiguebehaviorofastructuralsteel.The14thInternationalConferenceonFracture(ICF14).Rhodes,Greece,June18–23,2017. 11.HONGYoushi*,JIANGQingqingandSUNChengqi.Effectsofsurfacedefects/notchesonvery-high-cyclefatiguebehaviorofastructuralsteel.InvitedPlenaryLecture,7thInternationalConferenceonVeryHighCycleFatigue(VHCF–7),Dresden,Germany,July3–5,2017. 12.HONGYoushi*,SUHang,LIUXiaolongandSUNChengqi.High-cycleandvery-high-cyclefatiguebehaviorofatitaniumalloy.InvitedPlenaryLecture,4thChina-JapanJointSymposiumonFatigueofEngineeringMaterialsandStructures,Shenyang,China,August26–27,2017. 13.潘向南，洪友士，平均应力对钛合金等轴组织疲劳行为的影响。《中国力学大会－2017论文摘要集》，北京，2017年8月13–16日，CSTAM2017–A31–MS022–3321。 14.LIUXiaolong,SUNChengqiandHONGYoushi*.Crackinitiationcharacteristicsandfatiguepropertyofahigh-strengthsteelinVHCFregimeunderdifferentstressratios.FratturaedIntegritàStrutturale,2016,Vol.35,p.88–97. 15.HONGYoushi*,LIUXiaolong,LEIZhengqiangandSUNChengqi.Theformationmechanismofcharacteristicregionatcrackinitiationforvery-high-cyclefatigueofhigh-strengthsteels.InternationalJournalofFatigue,2016,Vol.89,p.108–118. 16.SUNChengqi,ZHANGXiaole,LIUXiaolongandHONGYoushi*.Effectsofspecimensizeonfatiguelifeofmetallicmaterialsinhighcycleandvery-high-cyclefatigueregimes.Fatigue&FractureofEngineeringMaterials&Structures,2016,Vol.39,p.770–779. 17.刘小龙，孙成奇，周砚田，洪友士*.微结构和应力比对Ti-6Al-4V高周和超高周疲劳行为的影响.《金属学报》(2016),Vol.52,no.8,p.923–930. LIUXiaolong,SUNChengqi,ZHOUYantianandHONGYoushi*.Effectsofmicrostructureandstressratioonhigh-cycleandvery-high-cyclefatiguebehaviorofTi-6Al-4Valloy.ActaMetallurgicaSinica,2016,Vol.52,p.923–930. 18.LIUXiaolong,SUNChengqiandHONGYoushi*.Facetedcrackinitiationcharacteristicsforhigh-cycleandvery-high-cyclefatigueofatitaniumalloyunderdifferentstressratios.InternationalJournalofFatigue,2016,Vol.92,p.434–441. 19.JIANGQingqing,SUNChengqi,LIUXiaolongandHONGYoushi*.Very-high-cyclefatiguebehaviorofastructuralsteelwithandwithoutinducedsurfacedefects.InternationalJournalofFatigue,2016,Vol.93,p.352–362. 20.SUNChengqiandHONGYoushi*.Apromisingmethodfortheanalysisofnotcheffectonfatiguestrength:Strainenergydensityapproach.ScienceChina-TechnologicalSciences,2016,Vol.59,p.1617–1618. 21.HONGYoushi*,GEFeiandLUWei.OnthetwoessentialconceptsforSFT:synergeticbuoyancy-weightratioandslack-tautmap.ProceedingsofInternationalSymposiumonSubmergedFloatingTunnelsandUnderwaterTunnelStructures(SUFTUS？2016),Chongqing,China:Elsevier,ProcediaEngineering,2016,Vol.166,p.221？228. 22.KANGLing,GEFei,WUXiaodongandHONGYoushi*.Experimentsandmodelingonthemaximumdisplacementofalongtensionedmooringtethersubjectedtovortex-inducedvibration.ProceedingsofInternationalSymposiumonSubmergedFloatingTunnelsandUnderwaterTunnelStructures(SUFTUS？2016),Chongqing,China:Elsevier,ProcediaEngineering,2016,Vol.166,p.83？90. 23.KANGLing,GEFeiandHONGYoushi*.Anumericalstudyonresponsesofsubmergedfloatingstructuresundergoingvortex-inducedvibrationandseismicexcitation.ProceedingsofInternationalSymposiumonSubmergedFloatingTunnelsandUnderwaterTunnelStructures(SUFTUS？2016),Chongqing,China:Elsevier,ProcediaEngineering,2016,Vol.166,p.91？98. 24.HONGYoushi*,LIUXiaolong,LEIZhengqiangandSUNChengqi.Whatcausestheformationofcrackinitiationcharacteristicregionforvery-high-cyclefatigueofmetallicmaterials?InvitedLecture,TMS145thAnnualMeeting&Exhibition,Nashville,Tennessee,USA,February14？18,2016,p.198. 25.HONGYoushi.Mechanismandmodelingofcrackinitiationandearlygrowthforvery-high-cyclefatigueofhighstrengthalloys.InvitedKeynoteLecture,ASTMSymposiumonFatigueandFractureTestPlanning,TestDataAcquisitionandAnalysis,SanAntonio,TX,May4？5,2016,p.19. 26.HONGYoushi.Thenatureandthemechanismofcrackinitiationandearlygrowthforvery-high-cyclefatigueofmetallicmaterials.InvitedPlenaryLecture,21stEuropeanConferenceonFracture(ECF21),Catania,Italy,June20？24,2016. 27.SUNChengqi,LIUXiaolongandHONGYoushi*.Effectsofstressratioandprimaryαgrainsizeonhighcycleandvery-high-cyclefatiguebehaviorofTi-6Al-4V.21stEuropeanConferenceonFracture(ECF21),Catania,Italy,June20？24,2016. 28.孙成奇，洪友士，近门槛区疲劳裂纹扩展速率模型描述。第十八届全国疲劳与断裂学术会议摘要集，郑州，2016年4月。 29.姜青青，谢季佳，孙成奇，洪友士*，一种新的“并行升降法”及其在疲劳实验研究的应用。第十八届全国疲劳与断裂学术会议摘要集，郑州，2016年4月。 30.张诗佳，谢季佳，孙成奇，洪友士*，表层强化材料中梯度微结构和残余应力对I型疲劳裂纹扩展的影响。第十八届全国疲劳与断裂学术会议摘要集，郑州，2016年4月。 31.潘向南，洪友士*，疲劳裂纹尖端场位错分布的准静态BCS模型。第十八届全国疲劳与断裂学术会议摘要集，郑州，2016年4月。 32.苏杭，乔宇，洪友士*，一种低有机质复合材料的疲劳和断裂性能研究。第十八届全国疲劳与断裂学术会议摘要集，郑州，2016年4月。 33.洪友士，FGA的内禀特征和形成机理。第三届中国超高周疲劳学术会议摘要集，特邀报告，p.10，成都，2016年7月9？10日。 34.孙成奇，洪友士*，高强钢超高周疲劳寿命预测模型和P-S-N曲线快速估计。第三届中国超高周疲劳学术会议摘要集，p.14，成都，2016年7月9？10日。 35.姜青青，孙成奇，刘小龙，洪友士*，微小表面缺陷对高强钢超高周疲劳的影响。第三届中国超高周疲劳学术会议摘要集，p.21，成都，2016年7月9？10日。 36.张诗佳、谢季佳、孙成奇、洪友士，梯度强化材料中疲劳裂纹扩展的扩展有限元模拟。第三届中国超高周疲劳学术会议摘要集，p.37，成都，2016年7月9？10日。 37.胡远培，洪友士，加载频率对高强钢超高周疲劳行为的影响。第三届中国超高周疲劳学术会议摘要集，p.31，成都，2016年7月9？10日。 38.潘向南，洪友士，疲劳裂纹尖端场的准静态二维位错密度模拟。第三届中国超高周疲劳学术会议摘要集，p.32，成都，2016年7月9？10日。 39.苏杭，刘小龙，孙成奇，洪友士，钛合金在超高周疲劳下的微结构转变。第三届中国超高周疲劳学术会议摘要集，p.36，成都，2016年7月9？10日。 40.QIANGuian,ZHOUChengenandHONGYoushi*.AmodeltopredictS–Ncurvesforsurfaceandsubsurfacecrackinitiationsindifferentenvironmentalmedia.InternationalJournalofFatigue,2015,Vol.71,p.35–44. 41.LIUXiaolong,SunChengqiandHONGYoushi*.Effectsofstressratioonhigh-cycleandvery-high-cyclefatiguebehaviorofaTi-6Al-4Valloy.MaterialsScience&EngineeringA,2015,Vol.622,p.228–235. 42.SUNChengqi,LIUXiaolongandHONGYoushi*.Atwo-parametermodeltopredictfatiguelifeofhigh-strengthsteelsinaveryhighcyclefatigueregime.ActaMechanicaSinica,2015,Vol.31,no.3,p.383–391. 43.MATSUNAGA*H.,SUNChengqi,HONGYoushi*andMURAKAMIY.Dominantfactorsforvery-high-cyclefatigueofhigh-strengthsteelsandanewdesignmethodforcomponents.Fatigue&FractureofEngineeringMaterials&Structures,2015,Vol.38,no.11,p.1274–1284. 44.LONGXu,GEFeiandHONGYoushi.Feasibilitystudyonbuoyancy-weightratiosofasubmergedfloatingtunnelprototypesubjectedtohydrodynamicloads.ActaMechanicaSinica,2015,Vol.31,no.5,p.750–761. 45.HONGYoushi*,LIUXiaolongandSUNChengqi.Effectsofstressratiooncrackinitiationmechanisminhigh-cycleandvery-high-cyclefatigueregimesofhighstrengthalloys.Invitedlecture,TMS144thAnnualMeeting&Exhibition,Orlando,Florida,USA,March2015,p.221. 46.HONGYoushi.CharacteristicDimensionofcracktipforvery-high-cyclefatigueofhighstrengthsteels.Invitedlecture,CharacterisationofCrackTipFields,3rdIJFatigue&FFEMSJointWorkshop,Urbino,Italy,20–22,April2015. 47.LIUXiaolong,SUNChengqiandHONGYoushi*.Crackinitiationcharacteristicsandfatiguepropertyofahigh-strengthsteelinVHCFregimeunderdifferentstressratios.TheFifthInternationalConferenceon“CrackPaths”(CP2015),Ferrara,Italy,September16–18,2015. 48.孙成奇，刘小龙，洪友士，初生a相晶粒尺度对Ti-6Al-4V高周和超高周疲劳行为的影响。《中国力学大会－2015论文摘要集》，p.120，上海，2015年8月，CSTAM2015–A21–E0907。 49.刘小龙，孙成奇，洪友士，高强合金超高周疲劳内部裂纹萌生机制的实验研究。《中国力学大会－2015论文摘要集》，p.121，上海，2015年8月，CSTAM2015–A21–E0909。 50.潘向南，洪友士，基于HR-EBSD的位错动力学行为观测。《中国力学大会－2015论文摘要集》，p.172，上海，2015年8月，CSTAM2015–A21–E1353。 51.HONGYoushi*,LEIZhengqiang,SUNChengqiandZHAOAiguo.Propensitiesofcrackinteriorinitiationandearlygrowthforvery-high-cyclefatigueofhighstrengthsteels.InternationalJournalofFatigue,2014,Vol.58,p.144–151. 52.SUNChengqi,LEIZhengqiangandHONGYoushi*,Effectsofstressratiooncrackgrowthrateandfatiguestrengthforhighcycleandvery-high-cyclefatigueofmetallicmaterials.MechanicsofMaterials,2014,Vol.69,p.227–236. 53.LEIZhengqiang,XIEJijia,SUNChengqiandHONGYoushi*.Effectsofloadingconditiononvery-high-cyclefatiguebehavioranddominantvariableanalysis.ScienceChina–Physics,Mechanics&Astronomy,2014,Vol.57,p.74–82. 54.HONGYoushi*,SUNChengqiandLEIZhengqiang.CrackInitiationMechanismandFatigueLifePredictionofVery-High-CycleFatigueforHighStrengthSteels.Invitedlecture,TMS143rdAnnualMeeting&Exhibition,SanDiego,USA,February2014,p.130. 55.HONGYoushi*,SUNChengqiandLEIZhengqiang.MechanismofCrackInitiationandModelingofFatigueLifeforVery-High-CycleFatigueofHighStrengthSteels.Keynotelecture,Fatigue2014(11thInternationalFatigueCongress),Melbourne,Australia,March2014. 56.SUNChengqiandHONGYoushi.Amicromechanicsmodelforfatiguelifeestimationofcrackinitiationinvery-high-cyclefatigueregime.Fatigue2014(11thInternationalFatigueCongress),Melbourne,Australia,March2014. 57.WUXiaodong,GEFeiandHONGYoushi.Anexperimentalinvestigationofdual-resonantandnon-resonantresponsesforvortex-inducedvibrationofalongslendercylinder.ScienceChina–Physics,Mechanics&Astronomy,2014,Vol.57,p.321–329. 58.洪友士，孙成奇，雷铮强，刘小龙，高强钢超高周疲劳裂纹萌生机理和寿命预测模型。大会特邀报告，第十七届全国疲劳与断裂学术会议摘要集，p.4，桂林，2014年8月。 59.刘小龙，孙成奇，洪友士，初生a相比例和应力比对Ti-6Al-4V超高周疲劳行为的影响。第十七届全国疲劳与断裂学术会议摘要集，p.31，桂林，2014年8月。 60.孙成奇，刘小龙，洪友士，超低速裂纹扩展速率建模与分析。第十七届全国疲劳与断裂学术会议摘要集，p.32，桂林，2014年8月。 61.姜青青，刘小龙，李亚波，孙成奇，洪友士，S38C车轴钢的超高周疲劳实验研究。第十七届全国疲劳与断裂学术会议摘要集，p.38，桂林，2014年8月。 62.张诗佳，谢季佳，李亚波，孙成奇，洪友士，表层梯度强化材料疲劳裂纹扩展的实验研究。第十七届全国疲劳与断裂学术会议摘要文集，p.259，桂林，2014年8月。 63.HONGYoushi.Characteristicdimensionandrelatedmechanismofcrackinitiationandearlygrowthforvery-high-cyclefatigue.InvitedPlenaryLecture,6thInternationalConferenceonVeryHighCycleFatigue(VHCF–6),ConferenceHandbook,p.36.Chengdu,October2014. 64.SUNChengqi,LIUXiaolongandHONGYoushi*.AMonteCarlosimulationofspecimensizeeffectonfatiguelife.6thInternationalConferenceonVeryHighCycleFatigue(VHCF–6),ConferenceHandbook,p.110.Chengdu,October2014. 65.LIUXiaolong,SUNChengqiandHONGYoushi*.Effectsofstressratioonvery-high-cyclefatiguepropertyofahigh-strengthsteel.6thInternationalConferenceonVeryHighCycleFatigue(VHCF–6),ConferenceHandbook,p.112.Chengdu,October2014. 66.SUNChengqi,LEIZhengqiang,XIEJijiaandHONGYoushi*.Effectsofinclusionsizeandstressratioonfatiguestrengthforhigh-strengthsteelswithfish-eyemodefailure.InternationalJournalofFatigue,2013,Vol.48,p.19–27. 67.SUNChengqiandHONGYoushi*.Atwo-parametermodelforfatiguestrengthestimationofhigh-strengthsteelsinvery-high-cycle-fatigueregime.Invitedlecture,TMS142ndAnnualMeeting&Exhibition,SanAntonio,USA,March2013,p.216. 68.LUWei,GEFei,WUXiaodongandHONGYoushi.NonlineardynamicsofasubmergedfloatingmooredstructurebyincrementalharmonicbalancemethodwithFFT.MarineStructures,2013,Vol.31,p.63–81. 69.SUNChengqi,LIUKaixinandHONGYoushi.Dynamicshellbucklingbehaviorofmulti-walledcarbonnanotubesembeddedinanelasticmedium.ScienceChina–Physics,Mechanics&Astronomy,2013,Vol.56,p.483–490. 70.QIANGuian,ZHOUChengenandHONGYoushi*.Crackpropagationmechanismandlifepredictionforvery-high-cyclefatigueofastructuralsteelindifferentenvironmentalmedias.FratturaedIntegritàStrutturale,2013,Vol.7,n.25,p.7–14. 71.QIANGuian,ZHOUChengenandHONGYoushi*.Crackpropagationbehaviorofvery-high-cyclefatigueforastructuralsteelinairandaqueoussolutions.Invitedlecture,2ndIJFatigue&FFEMSJointWorkshop,Malaga,Spain,15–17,April2013. 72.SUNChengqi,ZHANGXiaole,XIEJijiaandHONGYoushi.Astatisticalanalyticalmethodforfatiguereliabilitycontainingvery-high-cyclefatigueregime.ProceedingsofInternationalConferenceonAirworthiness&Fatigue,Beijing,25–27March,2013,p.91–94.(CSTAM2013–P01–A0013) 73.LEIZhengqiang,XIEJijia,SUNChengqi,LIUXiaolongandHONGYoushi.Reliabilityanalysisofvery-high-cyclefatiguecrackinitiationforahighstrengthsteel.ProceedingsofInternationalConferenceonAirworthiness&Fatigue,Beijing,25–27March,2013,P.157(CSTAM2013–P01–A0025) 74.SUNChengqi,LEIZhengqiangandHONGYoushi*.Fatiguestrengthpredictionforhigh-strengthsteelswithfish-eyemodefailure.The13thInternationalConferenceonFracture(ICF13).Beijing,China,June2013,CD-ROM,M04–005. 75.LEIZhengqiang,XIEJijia,SUNChengqi,LIUXiaolongandHONGYoushi*.Effectsofmicrostructureonvery-high-cyclefatiguecrackinitiationandlifescatterforahighstrengthsteel.Orallecture,The13thInternationalConferenceonFracture(ICF13).Beijing,China,June2013,CD-ROM,M04–007. 76.SUNChengqi,XIEJijiaandHONGYoushi*.Effectofstressratioonnear-thresholdfatiguecrackgrowth.Orallecture,The9thInternationalConferenceonFractureandStrengthofSolids(FEOFS2013).Jeju,Korea,June2013,CD-ROM,OS17–003.(BookofAbstractp.109). 77.洪友士，孙成奇，雷铮强，超高周疲劳裂纹萌生和初始扩展的机理与模型。分会邀请报告，《中国力学大会－2013论文摘要集》，p.12，西安，2013年8月,CSTAM2013–A31–0028。 78.刘小龙，李亚波，谢季佳，孙成奇，洪友士*，初生α相比例对TC4高周、超高周疲劳行为的影响。《中国力学大会－2013论文摘要集》，p.99，西安，2013年8月，CSTAM2013–A31–0613。 79.孙成奇，李亚波，雷铮强，洪友士*，应力比对疲劳裂纹扩展速率和疲劳强度的影响。《中国力学大会－2013论文摘要集》，p.100，西安，2013年8月,CSTAM2013–A31–0624。 80.张晓乐，李亚波，孙成奇，郑秀华，洪友士*，微结构对25CrMo4钢的疲劳行为的影响。中国力学大会－2013,西安，2013年8月，CSTAM2013–A31–0627,（摘要集，p.101）。 81.康凌，葛斐，武晓东，洪友士，大长径比结构涡激振动响应中的行波特性研究。《中国力学大会－2013论文摘要集》，p.218，西安，2013年8月,CSTAM2013–A31–1402。 82.洪友士，从若干国际学术期刊看疲劳与断裂研究的重要问题。邀请报告，2013疲劳、损伤与断裂研讨会，桂林，2013年10月。 83.HONGYoushi*,ZHAOAiguo,QIANGuianandZHOUChengen.FatigueStrengthandCrackInitiationMechanismofVery-High-CycleFatigueforLowAlloySteels.MetallurgicalandMaterialsTransactionsA,(2012)Vol.43,Issue8,p.2753–2762. 84.ZHAOAiguo,XIEJijia,SUNChengqi,LEIZhengqiangandHONGYoushi*.Effectsofstrengthlevelandloadingfrequencyonvery-high-cyclefatiguebehaviorforabearingsteel.InternationalJournalofFatigue,2012,Vol.38,p.46–56. 85.WUXiaodong,GEFeiandHONGYoushi.Areviewofrecentstudiesinvortex-inducedvibrationsoflongslendercylinders.JournalofFluidsandStructures,2012,Vol.28,p.292–308. 86.SUNChengqi,XIEJijia,ZHAOAiguo,LEIZhengqiangandHONGYoushi*.Acumulativedamagemodelforfatiguelifeestimationofhigh-strengthsteelsinhigh-cycleandvery-high-cyclefatigueregimes.Fatigue&FractureofEngineeringMaterials&Structures,2012,Vol.35,p.638–647. 87.LEIZhengqiang,HONGYoushi*,XIEJijia,SUNChengqiandZHAOAiguo.Effectsofinclusionsizeandlocationonvery-high-cyclefatiguebehaviorforhighstrengthsteels.MaterialsScience&EngineeringA2012,Vol.558,p.234–241. 88.LEIZhengqiang,ZHAOAiguo,XIEJijia,SUNChengqiandHONGYoushi*.VeryhighcyclefatigueforGCr15steelwithsmoothandhole-defectspecimens.Theoretical&AppliedMechanicsLetters,2012,Vol.2,031003. 89.SUNChengqiandHONGYoushi*.Correlationofcrackgrowthrateandstressratioforfatiguedamagecontainingveryhighcyclefatigueregime.Theoretical&AppliedMechanicsLetters,2012,Vol.2,031004. 90.HONGYoushi*,ZHAOAiguoandSUNChengqi.Oncrackinitiationandearlygrowthofvery-high-cyclefatigueforhighstrengthsteels.Invitedlecture,TMS141stAnnualMeeting&Exhibition,Orlando,USA,March2012,p.32. 91.HONGYoushi*,ZHAOAiguoandSUNChengqi.Crackinitiationandearlygrowthforvery-high-cyclefatigueofhighstrengthsteels.Invitedlecture,ProceedingsofAsianPacificConferenceonFractureandStrength–MechanicsandMaterials2012(APCFS-MM2012),Busan,Korea,May13–16,2012. 92.HONGYoushi*,LEIZhengqiang,SUNChengqiandZHAOAiguo.Characteristicsofcrackinteriorinitiationandearlygrowthoriginatedfrominclusionforvery-high-cyclefatigueofhighstrengthsteels.Proceedingsof4thInternationalConferenceon“CrackPaths”(CP2012),Gaeta,Italy,September19–21,2012,p.905–912. 93.SUNChengqiandHONGYoushi*.Effectofmicrostructureandloadingconditiononvery-high-cyclefatiguelifeofhigh-strengthsteels.The23rdInternationalCongressofTheoreticalandAppliedMechanics,Beijing,China,August19–24,2012. 94.WUXiaodong,GEFeiandHONGYoushi*.Investigationoftravellingwaveinvortex-inducedvibrationsoflongflexiblecylinders.The23rdInternationalCongressofTheoreticalandAppliedMechanics,Beijing,China,August19–24,2012. 95.SUNChengqi,LIUKaixinandHONGYoushi.Dynamicbucklingbehaviorofmulti-walledcarbonnanotubessubjectedtostepaxialloading.ActaMechanicaSolidaSinica,2012,Vol.25(2),p.117–125. 96.SUNChengqi,LIUKaixinandHONGYoushi.Axisymmetriccompressivebucklingofmulti-walledcarbonnanotubesunderdifferentboundaryconditions.ActaMechanicaSinica,2012,Vol.28(1),p.83–90. 97.QIANGuian,ZHOUChengenandHONGYoushi*.Experimentalandtheoreticalinvestigationofenvironmentalmediaonvery-high-cyclefatiguebehaviorforastructuralsteel.ActaMaterialia,2011,Vol.59,p.1321–1327. 98.HONGYoushi*andQIANGui’an.Effectofaqueousenvironmentonhighcycleandvery-high-cyclefatiguebehaviorforastructuralsteel.KeyEngineeringMaterials,2011,Vols.462–463,p.355–360. 99.ZHAOAiguo,XIEJijia,SUNChengqi,LEIZhengqiangandHONGYoushi*.PredictionofthresholdvalueforFGAformation.MaterialsScienceandEngineeringA,2011,Vol.528,p.6872–6877. 100.SUNChengqi,ZHAOAiguoandHONGYoushi*.Correlationofcrackinitiationparameterswithlifeestimationforvery-high-cyclefatigueofhighstrengthsteels.StructuralLongevity,2011,Vol.045,no.1,p.1–12. 101.GEFei,LUWei,WANGLeiandHONGYoushi*.Shearflowinducedvibrationsoflongslendercylinderswithawakeoscillatormodel.ActaMechanicaSinica,2011,Vol.27,no.3,p.330–338. 102.LUWei,GEFei,WangLei,WUXiaodongandHONGYoushi.Ontheslackphenomenaandsnapforceintethersofsubmergedfloatingtunnelsunderwaveconditions.MarineStructures,2011,Vol.24,no.4,p.358–376. 103.LANJiaoxia,WUYongzhongandHONGYoushi.Amicromechanicalmodelfordeformationbehaviorofnanocrystallinecopper.AdvancedMaterialsResearch,2011,Vols.152–153,p.772–777. 104.HONGYoushi*,QIANGuianandZHOUChengen.Onthecompetitionofcrackinitiationsiteatsurfaceorfrominteriorofhighstrengthsteelsathighcycleandvery-high-cyclefatigueregimes.Invitedlecture,Proceedingsofthe2ndChina-JapanJointSymposiumonFatigueofEngineeringMaterialsandStructures,Chengdu-Jiuzhai,China,Oct.17–20,2011,p.17–20. 105.QIANGuian,HONGYoushiandZHOUChengen.Investigationofhighcycleandvery-high-cycleFatiguebehaviorsforastructuralsteelwithsmoothandnotchedspecimens.EngineeringFailureAnalysis,2010,Vol.17,p.1517–1525. 106.XIEZiling,XIEJijia,HONGYouhi*andWUXiaolei.Influenceofprocessingtemperatureonmicrostructureandmicrohardnessofcoppersubjectedtohigh-pressuretorsion.ScienceChina-TechnologicalSciences,2010,Vol.53,no.6,p.1534–1539. 107.兰姣霞，洪友士*.纳米晶材料变形行为的微观力学分析.《固体力学学报》,2010,Vol.31,no.1,p.1–7. 108.HONGYoushi*andZHAOAiguo.Effectsofloadingfrequencyandstrengthlevelonhigh-cycleandvery-high-cyclefatiguebehaviorforalowalloysteel.Invitedlecture,2ndChina-JapanSymponFatigue&StrengthofMetallicMaterials,March5–6,2010,Kusatsu,Japan. 109.赵爱国，洪友士，谢季佳.加载频率对金属材料超高周疲劳性能的影响.第十五届全国疲劳与断裂学术会议摘要及论文集，广东佛山，2010年11月，p.97–98. 110.雷铮强，洪友士，谢季佳，赵爱国.金属材料超高周疲劳行为的Monte-Carlo模拟.第十五届全国疲劳与断裂学术会议摘要及论文集，广东佛山，2010年11月，p.73–74. 111.HONGYoushi*andGEFei.Dynamicresponseandstructuralintegrityofsubmergedfloatingtunnelduetohydrodynamicloadandaccidentalload.Proceedingsof1stInternationalSymposiumonArchimedesBridge,QiandaoLake,China,Elsevier,ProcediaEngineering,2010,Vol.4,p.35–50. 112.GEFei,LUWei,WUXiaodongandHONGYoushi.Fluid-structureinteractionofsubmergedfloatingtunnelinwavefield.Proceedingsof1stInternationalSymposiumonArchimedesBridge,QiandaoLake,China,Elsevier,ProcediaEngineering,2010,Vol.4,p.263–271. 113.LUWei,GEFei,WANGLeiandHONGYoushi*.Slackphenomenaintethersofsubmergedfloatingtunnelunderhydrodynamicloads.Proceedingsof1stInternationalSymposiumonArchimedesBridge,QiandaoLake,China,Elsevier,ProcediaEngineering,2010,Vol.4,p.243–251. 114.WUXiaodong,GEFeiandHONGYoushi*.Effectoftravelingwaveonvortex-inducedvibrationsofsubmergedfloatingtunneltethers.Proceedingsof1stInternationalSymposiumonArchimedesBridge,QiandaoLake,China,Elsevier,ProcediaEngineering,2010,Vol.4,p.153–160. 115.ZHANGShuangyin,WANGLeiandHONGYoushi.StructuralanalysisandsafetyassessmentofsubmergedfloatingtunnelprototypeinQiandaoLake(China).Proceedingsof1stInternationalSymposiumonArchimedesBridge,QiandaoLake,China,Elsevier,ProcediaEngineering,2010,Vol.4,p.179–187. 116.ZHANGShuangyin,WANGLeiandHONGYoushi.VibrationbehaviorandresponsetoanaccidentalcollisionofSFTprototypeinQiandaoLake(China).Proceedingsof1stInternationalSymposiumonArchimedesBridge,QiandaoLake,China,Elsevier,ProcediaEngineering,2010,Vol.4,p.189–197. 117.LEIZhengqiang,XIEJijia,ZHAOAiguoandHONGYoushi*.Asimulationonmicrostructuresensitivitytovery-high-cyclefatiguebehaviorofmetallicmaterials.Proceedingsof1stInternationalSymposiumonArchimedesBridge,QiandaoLake,China,Elsevier,ProcediaEngineering,2010,Vol.4,p.225–232. 118.谢子令，武晓雷，谢季佳，洪友士.高压扭转Cu试样微观组织的热稳定性分析.《金属学报》,2010,Vol.46,no.4,p.458–465. 119.谢子令，武晓雷，谢季佳，洪友士.转速对高压扭转Cu试样的组织与性能的影响.《材料热处理学报》,2010,Vol.31,no.11,p.109–115. 120.LONGXu,GEFei,WANGLeiandHONGYoushi*.Effectsoffundamentalstructureparametersondynamicresponsesofsubmergedfloatingtunnelunderhydrodynamicloads.ActaMechanicaSinica,2009,Vol.25,p.335–344. 121.GEFei,LONGXu,WANGLeiandHONGYoushi.Flow-inducedvibrationsoflongcircularcylindersmodeledbycouplednonlinearoscillators.ScienceinChinaSeriesG,Physics,Mechanics&Astronomy,2009,Vol.52,p.1086–1093. 122.洪友士*，赵爱国，钱桂安.合金材料超高周疲劳行为的基本特征和影响因素.《金属学报》,2009,Vol.45,no.7,p.769–780. 123.谢季佳，洪友士.纳米晶Ni疲劳行为的实验研究.《金属学报》,2009,Vol.45,no.7,p.844–848. 124.钱桂安，洪友士*.环境介质对40Cr结构钢高周和超高周疲劳行为的影响.《金属学报》,2009,Vol.45,no.11,p.1356–1363. 125.上官丰收,钱桂安,洪友士.限定型高压扭转变形分析.《塑性工程学报》,2009,Vol.16,no.1,p.134–137. 126.葛斐，龙旭，王雷，洪友士.水中悬浮隧道管段锚索耦合模型涡激振动的研究.《中国公路学报》,2009,Vol.22,no.3,p.83–88. 127.陆维，葛斐，王雷，龙旭，洪友士.不同浮重比水中悬浮隧道动力特性的实验研究.第18届全国结构工程学术会议论文集，工程力学杂志社,广州,2009年11月,no.III,p.Ⅲ–601–607. 128.HONGYoushi*,GEFeiandLONGXu.Researchesonessentialmechanicsissuesforsubmergedfloatingtunnel.ProceedingsofthefifthSymposiumonStraitCrossings,June21-24,2009,Trondheim,Norway,p.251–256. 129.LONGXu,GEFei,WANGLeiandHONYYoushi*.Influencesofstructuraldampingandbuoyancy-weightratioondynamicresponsesofsubmergedfloatingtunnel.ProceedingsofthefifthSymposiumonStraitCrossings,June21-24,2009,Trondheim,Norway,p.245–250. 130.GEFei,LONGXu,WANGLeiandHONGYoushi.Two-dimensionalvortex-inducedvibrationsofsubmergedfloatingtunneltethers.ProceedingsofthefifthSymposiumonStraitCrossings,June21-24,2009,Trondheim,Norway,p.173–178. 131.HONGYoushi*,QIANGui’anandZHOUCheng’en.Experimentandsimulationofvery-high-cyclefatiguebehaviorforlowalloysteels.Proceedingsofthe12thInternationalConferenceonFracture,July12–17,2009,Ottawa,Canada,ICF12CD-ROM,T26.003.(BookofAbstractp.284). 132.ZHANGShuangyin,XIEZilingandHONGYoushi.DamageassessmentandpreservationofsuspendingsystemofYongle-Big-Bell.ProtectionofHistoricalBuildings,PROHITECH09,ProceedingsofInternationalConference“ProtectionofHistoricalBuildingsbyReversibleMixedTechnologies”,MazzolaniF.M.(ed),Taylor&FrancisGroup,London,Rome,Italy,June21–24,2009,p.487–492. 133.葛斐，王雷，陆维，洪友士.剪切流中大长细比圆柱体的二维涡激振动.第九届全国水动力学学术会议论文集，海洋出版社，成都,2009年8月,p.125–131. 134.洪友士,钱桂安,赵爱国.加载环境对合金材料超高周疲劳行为的影响.超长寿命疲劳与断裂研讨会暨国内第二届VHCF会议文集，邀请报告，成都,2009年8月,p.13–21. 135.赵爱国，钱桂安，谢季佳，洪友士.40Cr钢的最大夹杂尺寸估计与疲劳强度预测.超长寿命疲劳与断裂研讨会暨国内第二届VHCF会议文集，成都,2009年8月,p.89–96. 136.洪友士，赵爱国，钱桂安.强度状态对合金材料超高周疲劳行为的影响.2009年度海峡两岸工程力学研讨会文集，邀请报告，重庆-成都,2009年8月,p.152–156. 137.LANJiaoxiaandHONGYoushi*.Micromechanicsmodelingofstrengthfornanocrystallinecopper.ArchiveofAppliedMechanics,2008,Vol.78,no.6,p.465–476. 138.葛斐，惠磊，洪友士，水中悬浮隧道在波浪场中非线性动力响应的研究.《应用力学学报》,2008,Vol.25,no.2,p.207–211. 139.惠磊,葛斐,洪友士.水中悬浮隧道在冲击载荷作用下的计算模型与数值模拟.《工程力学》,2008,Vol.25,no.2,p.209–213. 140.葛斐，惠磊，洪友士.波浪场中水中悬浮隧道动力响应的研究.《工程力学》,2008,Vol.25,no.6,p.188–194. 141.WANGZhijia,WUXiaoleiandHONGYoushi*.Torsionfracturebehaviorofdrawnpearliticsteelwireswithdifferentheattreatments.AdvancedMaterialsResearch,2008,Vol.33–37,p.41–46. 142.XIEJijia,WUXiaoleiandHONGYoushi.Studyonfatiguecracknucleationofelectrodepositednanocrystallinenickel.AdvancedMaterialsResearch,2008,Vol.33-37,p.925–930. 143.兰姣霞，王志甲，洪友士*.高能气动喷丸致纯铜细晶化的实验与模拟.《中国科学院研究生院学报》,2008,Vol.25,no.2,p.172–176. 144.谢子令，武晓雷，谢季佳，洪友士*.高压扭转铜试样的微观组织与压缩性能.《金属学报》,2008,Vol.44,no.7,p.803–809. 145.谢季佳，徐娟，洪友士.利用迹线测量晶体材料中特征面取向的EBSD方法.《电子显微学报》,2008,Vol.27,no.4,p.271–274. 146.上官丰收，董满生，洪友士.限定型高压扭转过程变形研究.《合肥工业大学学报：自然科学版》,2008,Vol.31,no.8,p.1292–1295. 147.XIEZilingandHONGYoushi*.Microstructureandmechanicalpropertiesofcoppersubjectedtohighpressuretorsion.AdvancesinHeterogeneousMaterialMechanics2008,Proceedingsof2ndICHMM,June3–8,2008,Huangshan,China,p.411–414. 148.QIANGuianandHONGYoushi.Experimentalinvestigationofvery-high-cyclefatiguebehaviorforastructuralsteel.AdvancesinHeterogeneousMaterialMechanics2008,Proceedingsof2ndICHMM,June3–8,2008,Huangshan,China,p.1199–1202. 149.HONGYoushi*,WUXiaolei,LIUJunliang,WANGJunyi,SHENWei,WANGZhijiaandXIEZiling.Investigationoftorsionductilitydegradationofhighstrengthsteelwire.BaosteelBAC2008,Shanghai,China,September2008. 150.XIEZilingandHONGYoushi*.Highpressuretorsioninducednano-crystallizationofcopperspecimenanditsdeformationmechanism.Invitedlecture,Proceedingsofthe2008CrossStraitWorkshoponEngineeringMechanics,Sep.26–Oct.2,2008,Tainan,p.198–204.

我收藏的导师 >

最便捷的期刊搜索 >

免费课题组网站 >

推荐链接