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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.