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[1]Y.F.Zhou,Y.L.Yang,D.Li,J.Yang,Y.W.Jiang,X.J.Ren,Q.X.Yang.EffectofTitaniumContentonMicrostructureandWearResistanceofFe-Cr-CHardfacingLayers.WeldingJournal,2012.91(8):p.229-235.(焊接顶级期刊,SCI收录).
[2]Y.F.Zhou,Y.L.Yang,Y.W.Jiang,J.Yang,X.J.Ren,Q.X.Yang.Fe–24wt.%Cr–4.1wt.%Chardfacingalloy:Microstructureandcarbiderefinementmechanismswithceriaadditive.MaterialsCharacterization,2012.72:p.77-86.(SCI收录,被引27次).
[3]Y.F.Zhou,Y.L.Yang,J.Yang,F.F.Hao,D.Li,X.J.Ren,Q.X.Yang.EffectofTiadditiveon(Cr,Fe)7C3carbideinarcsurfacinglayeranditsrefinedmechanism.AppliedSurfaceScience,2012.258(17):p.6653-6659.(SCI收录).
[4]Y.F.Zhou,Y.L.Yang,X.W.Qi,Y.W.Jiang,J.Yang,X.J.Ren,Q.X.Yang.InfluenceofLa2O3additiononmicrostructureandwearresistanceofFe-Cr-Ccladdingformedbyarcsurfacewelding.JournalofRareEarths,2012.30(10):p.1069-1074.(SCI收录).
[5]Y.F.Zhou,Y.L.Yang,J.Yang,P.F.Zhang,X.W.Qi,X.J.Ren,Q.X.Yang.WearresistanceofhypereutecticFe–Cr–ChardfacingcoatingswithinsituformedTiC.SurfaceEngineering,2013,29(5):p.366-373.(SCI收录).
[6]X.L.Xing,Y.F.Zhou,S.Y.Gao,J.B.Wang,Y.L.Yang,Q.X.Yang.Nano-twininsurfacemodifiedbainiteinducedbylasersurfacemodification.MaterialsLetters,2016.165:p.79-82.(SCI收录,通讯作者).
[7]J.B.Wang,Y.F.Zhou,X.L.Xing,S.Liu,C.C.Zhao,Y.L.Yang,Q.X.Yang.Theeffectofnitrogenalloyingtothemicrostructureandmechanicalpropertiesofmartensiticstainlesssteelhardfacing.Surface&CoatingsTechnology,2016,294:p.115-121.(SCI收录,通讯作者).
[8]X.L.Xing,Y.F.Zhou,Y.G.Zhuo,J.B.Wang,Y.L.Yang,Q.X.Yang.EffectsofrareearthoxideY2O3onmicrostructureandmechanicalpropertiesofproeutectoidferrite/granularbainiticcoating.MaterialsResearchSociety,2016,31(12):p.1702-1710.(SCI收录,通讯作者)
[9]S.Liu,Y.F.Zhou,X.L.Xing,J.B.Wang,Q.X.Yang.RefiningeffectofTiConprimaryM7C3inhypereutecticFe-Cr-Charden-surfaceweldingcoating:Experimentalresearchandfirstprinciplescalculation.JournalofAlloysandCompounds,2017,691:p.239-249.(SCI收录,通讯作者)
[10]S.Liu,Y.F.Zhou,X.L.Xing,J.B.Wang,Y.L.Yang,Q.X.Yang.Agglomerationmodelof(Fe,Cr)7C3carbideinhypereutecticFe-Cr-Calloy.MaterialsLetters,2016.183:p.272-276.(SCI收录,通讯作者).
[11]S.Liu,Y.F.Zhou,X.L.Xing,J.B.Wang,Y.K.Gao,Y.L.Yang,Q.X.Yang.Low-StressAbrasionBehaviorsofFe-Cr-C(1.4similarto5.6wt-%)HardsurfaceCoatings.WeldingJournal,2016.95(9):p.325-330.(SCI收录,通讯作者)
[12]X.Lu,Y.F.Zhou,X.L.Xing,Q.A.Tai,H.Guan,L.Y.Shao,X.X.Liu,S.Y.Gao.Failureanalysisofhotextrusiondiebasedondimensionalmetrology,micro-characterizationandnumericalsimulation-AcasestudyofTialloyparts.EngineeringFailureAnalysis,2017.73:p.Surface&CoatingsTechnology,2016,294:p.115-121.(SCI收录,通讯作者).
[13]J.B.Wang,T.T.Liu,Y.F.Zhou,X.L.Xing,S.Liu,Y.L.Yang,Q.X.Yang.EffectofnitrogenalloyingonthemicrostructureandabrasiveimpactwearresistanceofFe-Cr-C-Ti-Nbhardfacingalloy.Surface&CoatingsTechnology,2017,309:p.1072-1080.(SCI收录,通讯作者).
[14]X.L.Xing,Y.F.Zhou,X.W.Qi,J.B.Wang,X.Lu,Y.L.Yang,Q.X.Yang.Stressinducedshearbandstrengthenhigh-siliconalloysteelviaLHITTbetweenM-sandM-dtemperature.MaterialsScienceandEngineeringA,2017,684:p.249-253.(SCI收录,通讯作者)
[15]X.B.Zhao,X.M.Yuan,S.Liu,C.C.Zhao,C.X.Wang,Y.F.Zhou,Q.X.Yang.InvestigationonWC/LaAlO3heterogeneousnucleationinterfacebyfirst-principles.JournalofAlloysandCompounds,2017,695:p.1753-1762.(SCI收录,通讯作者)
[16]X.L.Xing,Y.F.Zhou,Y.L.Yang,S.Y.Gao,X.J.Ren,Q.X.Yang.Surfacemodificationoflow-carbonnano-crystallitebainitevialaserremeltingandfollowingisothermaltransformation.AppliedSurfaceScience,2015,353:p.184-188.(SCI收录)
[17]P.F.Zhang,Y.F.Zhou,J.Yang,D.Li,X.J.Ren,Y.L.Yang,Q.X.Yang.OptimizationonmechanicalpropertiesofFe7-xCrxC3carbidesbyfirst-principlesinvestigation.JournalofAlloysandCompounds,2013,560:p.49–53.(SCI收录).
[18]X.Yun,Y.F.Zhou,J.Yang,X.L.Xing,X.J.Ren,Y.L.Yang,Q.X.Yang.Refinementofnano-Y2O3onmicrostructureofhypereutecticFe-Cr-Chardfacingcoatings.JournalofRareEarths,2015.33(6):p.671-678.(SCI收录).
[19]X.Yun,Y.F.Zhou,B.Zhao,X.L.Xing,J.Yang,Y.L.Yang,Q.X.Yang.InfluenceofNano-Y2O3onWearResistanceofHypereutecticFe-Cr-CHardfacingCoating.TribologyLetters,2015.58(2):p.58:23.(SCI收录).
[20]J.Yang,Y.L.Yang,Y.F.Zhou,X.W.Qi,X.J.Ren,Q.X.Yang.High-alloymartensiteinthesurfacinglayerofhot-rollingsupportingrollersduringthetemperingprocess.Surface&CoatingsTechnology,2013219:p.69-74.(SCI收录).
[21]J.Yang,P.F.Zhang,Y.F.Zhou,J.Guo,X.J.Ren,Y.L.Yang,Q.X.Yang.First-principlesstudyonferrite/TiCheterogeneousnucleationinterface.JournalofAlloyandCompounds,2013,556:p.160-166.(SCI收录).
[22]JingGuo,ShaLiu,YefeiZhou,JiboWang,XiaoleiXing,XuejunRen,QingxiangYang.StabilityofeutecticcarbideinFe-Cr-Mo-W-V-Calloy.MaterialsLetters,2016,171:p.216-219.(SCI收录).
[23]XiaoxiDuan,ShiyouGao,QiDong,YefeiZhou,MingzheXi,XipanXian,BinWang.ReinforcementmechanismandwearresistanceofAl2O3/Fe-Cr-Mosteelcompositecoatingproducedbylasercladding.Surface&CoatingsTechnology,2016,291:p.230-238.(SCI收录).
[24]C.M.Zhao,H.Y.Hu,Y.F.Zhou,Y.K.Gao,X.J.Ren,Q.X.Yang.Experimentalandnumericalinvestigationofresidualstressesaroundcoldextrusionholeofultrahighstrengthsteel.MaterialsandDesign,2013,50:p.78-84.(SCI收录).
[25]J.Yang,F.F.Hao,D.Li,Y.F.Zhou,X.J.Ren,Q.X.Yang.EffectofREoxideongrowthdynamicsofprimaryaustenitegraininhardfacinglayerofmedium-highcarbonsteel.JournalofRareEarths,2012.30(8):p.814-819.(SCI收录).
[26]J.Yang,Y.L.Yang,X.Y.Jiao,Y.F.Zhou,X.W.Qi,X.J.Ren,Q.X.Yang.Fe‐15wt-%Cr-Xwt-%Chardfacingsurfacelayer:wearresistanceanditsenhancedmechanismwithCadditive.MaterialsScienceandTechnology,2013.29(9):p.1034-1039.(SCI收录).
[27]J.Yang,Y.L.Yang,Y.F.Zhou,X.W.Qi,Y.K.Gao,X.J.Ren,Q.X.Yang.MicrostructureandwearpropertiesofFe-2wt-%Cr-Xwt-%W-0.67wt-%Chardfacinglayer.WeldingJournal,2013.92(8):p.225-230.(SCI收录).
[28]J.Yang,Y.L.Yang,X.Y.Jiao,Y.F.Zhou,X.W.Qi,X.J.Ren,Q.X.Yang.Fe-15wt-%Cr-Xwt-%Chardfacingsurfacelayer:wearresistanceanditsenhancedmechanismwithCadditive.MaterialsScienceandTechnology,2013.29(9):p.1034-1039.(SCI收录).
[29]J.B.Wang,J.Yang,C.X.Wang,Y.F.Zhou,X.L.Xing,Y.L.Yang,Q.X.Yang.First-principlescalculationonLaAlO3astheheterogeneousnucleusofTiC.ComputationalMaterialsScience,101:p.108-114.(SCI收录).
[30]J.G.Chen,X.L.Xing,Y.J.Wang,Y.F.Zhou,X.J.Ren,Y.L.Yang,Q.X.Yang.EffectsofVanadiumAdditiononMicrostructureandTribologicalPerformanceofBainiteHardfacingCoatings.JournalofMaterialsEngineeringandPerformance,2015.24(3):p.1157-1164.(SCI收录).
[31]S.Liu,S.Y.Gao,Y.F.Zhou,X.L.Xing,X.R.Hou,Y.L.Yang,Q.X.Yang.Aresearchonthemicrostructureevolutionofaustenitestainlesssteelbysurfacemechanicalattritiontreatment.MaterialsScienceandEngineeringA,2014.617(11):p.127-138.(SCI收录).
[32]J.Yang,P.F.Zhang,Y.F.Zhou,X.L.Xing,X.J.Ren,Y.L.Yang,Q.X.Yang.MechanicalpropertiesofthehardfacingalloyswithdifferentLa2O3additivesandthemechanismanalysisbyfirst-principlescalculations.MaterialsScienceandEngineeringA,2014.591(1):p.82-89.(SCI收录).
[33]J.Yang,X.R.Hou,P.F.Zhang,Y.F.Zhou,X.L.Xing,X.J.Ren,Q.X.Yang.First-principlescalculationsonLaAlO3astheheterogeneousnucleusofaustenite.ComputationalandTheoreticalChemistry,2014.1029(2):p.48-56.(SCI收录).
[34]X.R.Hou,B.Zhao,J.Yang,X.L.Xing,Y.F.Zhou,Y.L.Yang,Q.X.Yang.Fe-0.4wt.%C-6.5wt.%Crhardfacingcoating:MicrostructuresandwearresistancewithLa2O3additive.AppliedSurfaceScience,2014.317(10):p.312-318.(SCI收录).
中文部分:
[35]周野飞,韩超,刘利刚,杨育林,杨庆祥.马氏体相变对堆焊冷却切向应力影响的数值模拟.焊接学报,2012.33(2):p.73-76.(EI).
[36]周野飞,李达,周革宇,朱茂生,杨庆祥.高铬铸铁型堆焊自保护药芯焊丝的研制.焊接技术,2011.40:p.43-45.(核心).
[37]周野飞,高士友,王京京.激光熔覆高碳铁基合金组织性能研究.中国激光,2013,40(12):p.40-44.(EI).
[38]高士友,李健,李臣光,周野飞.激光熔覆单道沉积轨迹横截面形貌变化规律研究.中国激光,2013,40(5):p.113-119.(EI).
[39]陈继刚,周野飞,姜永文,杨育林,杨庆祥.稀土硅铁添加剂细化高铬铸铁堆焊合金.材料热处理学报,2014.35(3):p.35-39.(EI收录)
[40]杨庆祥,赵斌,员霄,蹤雪梅,周野飞.纳米Y2O3对过共晶Fe-Cr-C堆焊合金表面微观组织与耐磨性的影响.表面技术,2015,44(4):p.42-53.
[41]杨庆祥,周野飞,杨育林,齐效文.Fe-Cr-C系耐磨堆焊合金研究进展.燕山大学学报,2014.38(3):p.189-196.
[42]朱茂生;付莉超;杨健;周野飞;杨庆祥.药芯焊丝电弧焊(FCAW)的焊接电流对Fe-Cr-C合金堆焊金属组织与耐磨性的影响.材料导报,2014,28(S1):p.427-430.
[43]周革宇,朱茂生,杨健,姜永文,周野飞,杨庆祥.回火处理对大型支承辊堆焊合金组织与性能的影响.焊接,2012.4:p.60-63.(核心).
[44]周野飞,杨育林,刘利刚,李达,杨健,杨庆祥.钛含量对Fe-Cr-C堆焊合金显微组织的影响.第13届全国青年材料科学技术研讨会,西安,中国,2011.p.90-98.
[45]周野飞,杨育林,杨健,张鹏飞,杨庆祥.基于CALPHAD的过共晶铁基合金相析出规律研究与初生碳化物含量预测.第十届全国固态相变凝固及应用学术会议,苏州,中国,2012.P.145-146.
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