通过非金属夹杂物和在夹杂物基础上形成的点蚀,对高强弹簧钢的疲劳和在0.6mol/LNaCl溶液中腐蚀疲劳性能的影响,综述腐蚀开裂过程中,材料的显微组织与应力和环境因素的交互作用。
参考文献
| [1] | ParkinsRN.Environment-InducedCrackingofMetals,ed.GanglofRP,IvesMB,Houston,Tx:NACE,1990,12ChinaPressureVeselSocietyandChemicalMachinerySociety,PresureVesselDefectAssessmentCode(VCDA),CCMS,Beijing,19843AmericanSocietyofMechanicalEngineers.Boiler&PreeureVesselCode,Sec.XI,ASME.NewYork,19864BritishStandardsInstitution.PD6493,BSI,London.19805JapaneseWeldingSociety.JWES-2085K,JWS,Tokyo.19836WangYZ,AkidR,MilerKJ.FatigueFract.Engng.Mater.Struct.,1995,18(3):2937KieslingR.Non-MetalicInclusionsinSteel.London:TheMetalSociety.1978,19888ShihTY,ArakiT.Trans.Iron.SteelInst.Jap.,1973,13:119CotisRA,HusainZ.MetalsTechnology,1982,9:10410PetersPE.StressXoncentrationFactors.Awiley-intersciencePublication,197411MilerKJ.MaterialsScienceandTechnology,1993,9:45312LairdC,DuqueteDJ.CorosionFatigue,NACE-2,Houston,Texas,1972,8813ParkinsRN.MetalsTechnology,1982,9:12214WangYZ,EbtehajK,HardieD,ParkinsRN.BehaviourofMultipleStressCorrosionCracksinaMn-Cr-Mo-VStel:Ⅰ.Metalography.AcceptedforPublicationinCorosionScience15WangYZ,EbtehajK,HardieD,ParkinsRN.BehaviourofMultipleStressCorosionCracksinMn-CrabdaMn-Cr-Mo-VStel:Ⅱ.StatisticalCharaterisation.AcceptedforPublicationinCorosionScience16KitagawaH,FujitaT,MiyazawaK.CorosionFatigueTechnology,ed.CraigHL,CrookerTW,HoeppnerDW.Philadelphia,PA:ASTM,STP624,1978.9817ParkinsRN.AReporttoAmericanGasPipelineAsociation18ParkinsRN,SinghPM.Corosion,1990,46:48519WangYZ,HardieD,ParkinsRN.BehaviourofMultipleStressCorosionCracksinaMn-CrandaNi-Cr-Mo-VSteel:ⅢMonteCarloSimulation.AcceptedforPublicationinCorosionScience20ParkinsRN,BelhimerE,BlanchardWK.Corosion,1993,49:95121ParkinsRN,BlanchardWK,DelantyBS.Corosion,1994,50:39422KameiA,YokoboriT.ReportsoftheResearchInstituteforStrengthandFractureofMaterials,TohokuUniversi-ty,Sendai,Japan.1974,10(2)23BoldPE,BrownMW,AlenRJ.FatigueFract.Engng.Mater.Struct.1992,15:96524GuoYH,SrivatsanTS,PadovanJ.EngineringFractureMechanics,1994,47:84325ErdoganF,SihGC.JournalofBasicEnginering,1963,85:51926HusainMA,PuSL,UnderwoodJ.FractueAnalysis,ASTMSTP560,1994,227PalaniswamyK,KnausWG.MechanicsTodayed.Nemat-Nasers.NewYork:PergamonPres,1978.8728SihGC.Inter.J.ofFracture,1974,10:30529ZhengYS,WangZG,AiSH.MetalurgicalandMaterialsTransactions,1994,25A:171330GaoH,BrownMW,MilerKJ.FatigueEngng.Mater.Struct.,1982,5:131ShihCF.FractureAnalysis,ASTMSTP560,1974,18732SureshS.FatigueofMaterials,CambridgeUniversityPres,199133GaoH,WangZ,YangC,ZhouA.ActaMetal.Sin.1979,15:38034BalochRA,BrownMW.Mixed-ModeFatigueandFracture,ESIS14.ed.RosmaHPnithandMilerKJ,1993,12535WangYZ,AtkinsonDJ,AkidR,ParkinsRN.CrackInteraction,CoalescenceandMixedModeFractureMechan-ics,submitedforpublicationinFatigueFract.Engng.Mater.Struct.199536WangYZ.StresCorosionCrackCoalescenceandLifetimePrediction,Ph.D.Thesis.UniversityofNewcastleuponTyne.199137ChermahiniRG,ShivakumarKN,NewmanJC,etal.EngineeringFractureMechanics,1989,34:393( |
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