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杨志南 副教授 博导 收藏 完善纠错
燕山大学    机械工程学院
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个人简介

学习工作简历 2016.12-今燕山大学机械工程学院冶金机械系副教授 期间2018.6-9英国剑桥大学UniversityofCambridge,访问学者 2019.9-12香港大学,访问学者 2013.6-2016.12燕山大学机械工程学院冶金机械系讲师 期间2015.5澳大利亚新南威尔士大学(UNSW),访问学者 2008.9-2013.6燕山大学材料科学与工程学院材料学专业硕博连读获得工学博士学位 2004.9-2008.7西安科技大学应用化学专业获得理学学士学位 本科教学信息 薄板坯连铸连轧微合金化技术 Creo2.0三维创新设计 测试技术 轴承用钢及制造技术 研究生教学信息 学科及研究方向 1.[硕士]机械设计及理论(080203),研究方向:先进结构材料制备技术 2.[博士]机械设计及理论(080203),研究方向:先进结构材料制备技术

研究领域

在研项目信息 1.多相复合协同提升纳米贝氏体轴承钢性能的路径及机理研究,国家自然科学基金面上基金,2019.1-2022.12,主持 2.快速相变纳米贝氏体钢设计、制备及应用中的关键问题,国家自然科学基金重点基金,2019.1-2023.12,参加(第二) 3.新型快速相变纳米贝氏体渗碳轴承钢的设计、制备及机理研究,河北省高等学校青年拔尖人才计划,2018.3-2020.12 4.短相变周期纳米贝氏体轴承钢的制备路径及其机理研究,博士后面上项目,2018.5-2020.1 5.双态锆合金的微结构调控及强韧化机理研究,国家自然科学基金青年基金,2017.1-2019.12,主持 6.高强度钢轨钢微结构调控及性能研究,,科技部国家重点实验室基础研究项目,2017.01-2017.12,主持 7.纳米贝氏体技术轴承工业化应用可行性研究,与洛阳LYC轴承有限公司合作项目,2016.02-2017.02,主持 完成项目信息 1.梯度强变形锆合金及其在强外场下的组织演变和性能调控,国家重点基础研究发展计划-973计划子课题,2010,01-2014.08,参加 2.无碳化物贝氏体钢变形中微观结构演变规律研究,科技部国家重点实验室基础研究项目,2014.01-2014.12,主持 3.大功率风电机组用轴承钢关键技术开发,国家高技术研究发展计划-863计划,2012.01-2015.12,主研人,结题报告和科技报告主要撰写人。 4.轧制变形及热处理制度对锆合金组织及性能影响,燕山大学博士基金,2013.09-2016.09,主持 5.TMCP工艺对中低碳贝氏体钢组织稳定性的影响,国家工程中心开放课题,2013.06-2016.06,主持 6.高强韧性双态锆合金的微结构调控及强韧化机理研究,燕山大学青年教师课题A类,2014.09-2017.07,主持 7.新型ZrNbAl合金相间协调变形机理研究,河北省自然科学基金,2015.01-2017.12,主持 发明专利: 1.杨志南,张福成,陈晨,一种风电轴承用中碳硼微合金化钢的制备方法,中国,ZL201410326037.3.授权 2.杨志南,刘峰超,张福成,一种具有α/β双态组织锆铌合金的制备方法,中国,ZL201110195057.8.授权 3.杨志南,张福成,王艳辉,张明,一种渗碳轴承钢及其制备方法,中国,ZL201510675542.3授权 4.杨志南,张福成,一种耐冲击载荷轴承用钢及其热处理方法,中国,ZL201610280071.0授权 5.杨志南,张福成,一种重载齿轮的制备方法,中国,ZL201410808897.0授权 6.张福成;陈晨;杨志南,一种风电偏航、变桨轴承套圈用钢及其制备方法,ZL201510066587.0,授权。 7.张福成,吕博,张明,杨志南,王天生,钱立和,高锰钢辙叉机械冲击硬化加工方法,中国,ZL200910227860.8.授权 8.张福成,杨志南,肖洋洋,一种具有梯度组织结构锆铌合金的方法,中国,ZL201210286111.4.授权 9.张福成,吕博,张明,杨志南,郑春雷,康杰,全贝氏体钢辙叉及其制造方法,中国,ZL201210442455.3.授权 10.张福成,王天生,杨志南,王艳辉,康杰,郑炀曾,整体硬贝氏体轴承钢及其制造方法,中国,ZL201210399526.3.授权 11.张福成,吕博,王天生,郑炀曾,张明,郑春雷,杨志南,含铝低温贝氏体钢的制备方法,中国,ZL201210504420.4.授权 12.张福成,冯晓勇,杨志南,康杰,一种冲击摩擦疲劳试验机,中国,ZL201410150405.3.授权 13.张福成,刘硕,康杰,杨志南,吕博,郑炀曾,纳米珠光体钢轨的制备方法,ZL201410285670.2授权 14.李建辉、李强、张福成、毛磊、高颖、刘闪、秦森、胡宝成、杨志南,一种锆铝合金及一种锆铝合金及其晶粒的细化方法,2015100131515。授权 15.FuchengZhang,BoLv,TianshengWang,YangzengZheng,MingZhang,ZhinanYang,ChunleiZheng,MaoLi,JieKang,Methodforproducinglowtemperaturebainitesteelcontainingaluminum,US,2014/0144557A1.实质审查 16.FuchengZhang,BoLv,ShouLiu,ZhinanYang,MingMingWang,YangzengZheng,Nano-PearliteRailandProcessforManufacturingSame,USAPatent,US2015/0368765A1.授权 实用新型专利: 1.杨志南,姜峰.一种用于楔形钢板感应加热的新型感应线圈,201720536864.4,授权,2018.01.02. 2.杨志南,曾慧敏,刘启.一种用于大型风电齿圈热加工模拟的实验装置,201720679337.9,授权,2018.02.02 3.杨志南,李雪梅.一种大模数矿山机械用齿轮仿形加热线圈的工装卡具,201720808594.8,授权. 4.杨志南,姜峰.一种用于调心滚子轴承内圈感应加热的感应装置,201721135870.5,授权。 5.杨志南,姜峰.一种用于矩形花键轴淬火的新型感应装置,201721123219.6,授权。

近期论文

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2019年 [1]Z.N.Yang,X.B.Wang,F.Liu,F.C.Zhang,L.J.Chai,R.S.Qiu,L.Y.Chen,EffectofintercriticalannealingtemperatureonmicrostructureandmechanicalpropertiesofduplexZr-2.5Nballoy.JournalofAlloysandCompounds.JournalofAlloysandCompounds776(2019)242-249. [2]FuchengZhang*,ZhinanYang**,DevelopmentandPerspectiveofHighPerformanceNanostructuredBainiticBearingSteel.Engineering,inpress. [3]ChunheChu,YumanQin,XuemeiLi,ZhinanYang*,FuchengZhang*,ChanghongGuo,XiaoyanLong,LeileiYou.Effectoftwo-stepaustemperingprocessontransformationkineticsofnanostructuredbainiticsteel.Materials2019,12,166;doi:10.3390/ma12010166. [4]ZhinanYang*,ChunheChu,FengJiang,YumanQin,XiaoyanLong,ShuliWang,DaChen,FuchengZhang**.Acceleratingnano-bainitetransformationbasedonanewconstructedmicrostructuralpredictingmodel.MaterialsScience&EngineeringA,inpress. [5]ZhinanYang*,FuchengZhang*.NanostructuredBainiticBearingSteel.ISIJInternational,reviewinprocess. [5]JialiZhao,BoLv,FuchengZhang,ZhinanYang,LiheQian,ChenChen,XiaoyanLong,Effectsofaustemperingtemperatureonbainiticmicrostructuresandmechanicalpropertiesofahigh-Chigh-Sisteel,MaterialsScience&EngineeringA742(2019)179–189. [6]XiaojieZhao,ZhinanYang,FuchengZhang,XiaoyanLong,ChenChen.AccelerationofbainitictransformationbyintroducingAlNinmediumcarbonsteel.MaterialsScienceandTechnology,2019,35:147–154. [7]JialiZhao,FuchengZhang,BoLv,ZhinanYang,ChenChen,XiaoyanLong,XiaojieZhao,ChunheChu,Inconsistenteffectsofaustemperingtimewithintransformationstasisonmonotonicandcyclicdeformationbehaviorsofanultrahighsiliconcarbide-freenanobainitesteel,Mater.Sci.Eng.A,inpress. [8]ShuleXia,FuchengZhang,ZhinanYang.Cyclicdeformationbehavioursof18Mn3Si2CrNiMomultiphase(martensite/bainite/retainedaustensite)steel.MaterialsScience&EngineeringA744(2019)64–73. 2018年 [1]MingmingWang,JunShan,ChunleiZheng,MingZhang,ZhinanYang,FuchengZhang,Effectsofdeformationandadditionofaluminiumonspheroidisationofhigh-carbon-bearingsteel.MaterialsScienceandTechnology,2018,34:161-171. [2]Liang-YuChen,PengShen,LinaZhang,ShengLu,LinjiangChai,ZhinanYang,Lai-ChangZhang,Corrosionbehaviorofnon-equilibriumZr-Sn-Nb-Fe-Cu-Oalloysinhightemperature0.01MLiOHaqueoussolutionanddegradationofthesurfaceoxidefilms.CorrosionScience,136(2018)221–230. [3]L.J.Chai,K.Chen,Y.Zhi,K.L.Murty,L.Y.Chen,Z.N.Yang,NanotwinsinducedbypulsedlaserandtheirhardeningeffectinaZralloy,JournalofAlloysandCompounds,748(2018)163-170. [4]X.Y.Long,F.C.Zhang,Z.N.Yang,B.Lv.Studyonmicrostructuresandpropertiesofcarbide-freeandcarbide-bearingbainiticsteels.MaterialsScience&EngineeringA,2018,715:10–16. [5]Z.N.Yang,Y.L.Ji,F.C.Zhang,M.Zhang,B.Nawaz,C.L.Zheng.Microstructuralevolutionandperformancechangeofacarburizednanostructuredbainiticbearingsteelduringrollingcontactfatigueprocess,MaterialsScience&EngineeringA,725(2018)98–107. [6]L.J.Chai*,J.Y.Xia,Y.Zhi,Y.N.Gou,L.Y.Chen,Z.N.Yang*,N.Guo,Deformationmode-determinedmisorentationandmicrostructuralcharacteristicsinrolledpureZrsheet,SinceChinaTechnologicalSciences,2018,61(9):1346-1352. [7]杨志南,赵晓洁,张福成,*,李艳国,龙晓燕,张明.加速贝氏体相变研究方法综述.燕山大学学报,inpress. [8]ShuleXia,FuchengZhang,ZhinanYang.Microstructureandmechanicalpropertiesof18Mn3Si2CrMosteelsubjectedtoaustemperingatdifferenttemperaturesbelowMs.MaterialsScience&EngineeringA,724(2018)103-111. [9]LinjiangChai,KeChen,ShuyanWang,JiyingXia,TingtingWang,ZhinanYang.Microstructuralcharacteristicsofas-forgedandβ-air-cooledZr-2.5Nballoy.Trans.NonferrousMet.Soc.China28(2018)1321-1328 2017年 [1]MingmingWang,FuchengZhang,ZhinanYang,Effectsofhigh-temperaturedeformationandcoolingprocessonthemicrostructureandmechanicalpropertiesofanultrahigh-strengthpearlitesteel.MaterialsandDesign114(2017)102–110. [2]陈晨,杨志南,张福成,40CrNiMoV钢在大尺寸轴承中的应用.金属热处理,2017,42(4):6-11. [3]张福成,杨志南*,雷建中,庞碧涛,王明礼.贝氏体钢在轴承中的应用进展.轴承,2017,1(1):54-64. [4]M.Zhang,,Y.N.Li,F.C.Zhang,X.B.Wanga,L.Y.Chen,Z.N.Yang*,EffectofannealingtreatmentonthemicrostructureandmechanicalpropertiesofaduplexZr-2.5Nballoy.MaterialsScience&EngineeringA706(2017)236–241 [5]Z.N.Yanga,L.Q.Daia,C.H.Chub,F.C.Zhanga,b*,L.W.Wangc,A.P.Xiaod,Effectofaluminiumalloyingonthehotdeformationbehaviourofnano-bainitebearingsteel,JournalofMaterialsEngineeringandPerformance,2017,26:5954-5962. [6]MingmingWang,FuchengZhang,ZhinanYang.Effectsofalloyingelementsandcoolingratesonthehigh-strengthpearlitesteels.MATERIALSSCIENCEANDTECHNOLOGY,2017,VOL.33,NO.14,1673–1680 [8]ShuleXIA,FuchengZHANG,ChunyuZHANG,ZhinanYANG.MechanicalPropertiesandMicrostructuresofaNovelLowcarbonHigh-siliconMartensiticSteel,ISIJInternational,Vol.57(2017),No.3,pp.558–563. [9]X.Y.Long,F.C.Zhang,J.Kang,Z.N.Yang,D.D.Wu,K.M.Wu&G.H.Zhang,Studyoncarbide-bearingandcarbide-freebainiticsteelsandtheirwearresistance,MaterialsScienceandTechnology2017,33:615-622. [9]F.C.Zhang,Y.H.Wang,Z.N.Yang,Y.G.Li,ResearchandApplicationProgressofNanostructuredBainiticSteelinBearings,MaterialScience&EngineeringInternationalJournal,2017,1(2):00008.1-5. [10]LinjiangChai,ShuyanWang,ZhinanYang,HuchengPan,Bimodalplatestructuresinducedbypulsedlaserinduplex-phaseZralloy,ScienceChinaTechnologicalSciences,2017,60:587-592. [11]郑春雷,佘丽,王艳辉,杨志南,张福成,高碳贝氏体轴承钢滚动接触疲劳性能的研究,机械工程学报,2017,:53:110-117. 2016年 [1]BoLv,ZhimaoZhang,ZhinanYang*,FuchengZhang,ChunleiZheng,YarongHe.AhighercorrosionresistanceforabainiticsteelwithAlinsteadofSi.MaterialsLetters,173(2016)95–97. [2]M.M.Wang,B.Lv,Z.N.Yang,F.C.Zhang.Wearresistanceofbainitesteelsthatcontainaluminium.MaterialsScienceandTechnology,32(2016)282-290. [3]YanhuiWang,ZhinanYang,FuchengZhang,DongdongWu.Microstructuresandmechanicalpropertiesofsurfaceandcenterofcarburizing23Cr2Ni2Si1Mosteelsubjectedtolow-temperatureaustempering.MaterialsScience&EngineeringA,670(2016)166–177. [4]ShuoLiu,FuchengZhang,ZhinanYang,MingmingWang,ChunleiZheng.EffectsofAlandMnontheformationandpropertiesofnanostructuredpearliteinhigh-carbonsteels.MaterialsandDesign,93(2016)73–80. [5]ChunleiZheng,BoLv,FuchengZhang,ZhinanYang,JieKang,LiShe,TianshengWang.Anovelmicrostructureofcarbide-freebainiticmediumcarbonsteel observedduringrollingcontactfatigue.ScriptaMaterialia114(2016)13–16. [6]YanguoLi,FuchengZhang,ChengChen,BoLv,ZhinanYang,ChunleiZheng.Effectsofdeformationonthemicrostructuresandmechanicalpropertiesofcarbide–freebainiticsteelforrailwaycrossinganditshydrogenembrittlementcharacteristics.MaterialsScience&EngineeringA,651(2016)945–950. [7]含Si/Al低温贝氏体钢的研发与应用.张福成,杨志南,郑春雷,龙晓燕,王明明,王艳辉.世界金属导报,B04,2016.01.12. [8]ZhinanYang,FuchengZhang,YunlongJi,YanhuiWang,BoLv,MingliWang.Notablyimprovedmechanicalpropertiesviaintroducingashortaustemperingtreatmentonlow-carbonmartensitesteel.MaterialsScience&EngineeringA673(2016)524–529. [9]ZhinanYang,YingnanLi,YanguoLi,FuchengZhang,MingZhang.Constitutivemodellingforflowbehaviourofmediumcarbonbainiticsteelanditsprocessingmaps.JournalofMaterialsEngineeringandPerformance,25(2016)5030–5039. [10]C.Chen,X.Y.Feng,B.Lv,Z.N.Yang,F.C.Zhang,Astudyonagingcarbideprecipitationbehaviorofhadfieldsteelbydynamicelasticmodulus.MaterialsScience&EngineeringA677(2016)446–452. [11]YanhuiWang,FuchengZhang,ZhinanYang,BoLv,ChunleiZheng.RollingContactFatiguePerformancesofCarburizedandHigh-CNanostructuredBainiticSteels.Materials2016,9,960;doi:10.3390/ma9120960 [12]X.Y.Long,F.C.Zhang,J.Kang,Z.N.Yang,D.D.Wu,K.M.Wu,G.H.Zhang.Studyoncarbide-bearingandcarbide-freebainiticsteelsandtheirwearresistance.MaterialsScienceandTechnology,2016,DOI10.1080/02670836.2016.1242205. 2015年 [1]YangZhinan,FuchengZhang,ChunleiZheng,MingZhang,BoLv,LinQu.Studyonhotdeformationbehaviourandprocessingmapsoflowcarbonbainiticsteel.Materials&Design,66(2015)258–266. [2]MingZhang,FuchengZhang,ZhinanYang*,YingnanLi,LinQu,HuijuanZhen.EffectofcoolingprocessontheformationofduplexmicrostructureinZr-2.3Nballoy.JournalofAlloysandCompounds,651(2015)316-321. [3]C.Chen,F.C.Zhang,Z.N.Yang,C.L.Zheng.Superhardenabilitybehaviorofvanadiumin40CrNiMoVsteel.Materials&Design83(2015)422–430. [4]J.H.Li,Q.Li,F.C.Zhang,S.Liu,L.Mao,B.C.Hu,Z.N.Yang.EffectsborononmicrostructureandmechanicalpropertiesofZr3Al-basedalloys,MaterialsLetters,2015,153:70-72. [5]FuchengZhang,XiaoyongFeng,ZhinanYang,JieKang,TianshengWang.Dislocation–TwinBoundaryInteractionsInducedNanocrystallineviaSPDProcessinginBulkMetals,ScientificReports,2015,5:1-5. [6]陈晨,杨志南,张洋,张福成,郑炀曾.大功率风电偏航轴承套圈用钢及其模拟热处理工艺,机械工程学报,2015,51:29-37. [7]赵佳莉,杨志南,张福成.70Si3Mn钢中无碳化物贝氏体组织及其性能研究,燕山大学学报,2015,39:199-212. 2014年 [1]Z.N.Yang,F.C.Zhang,L.Qu,Z.G.Yan,Y.Y.Xiao,R.P.Liu,X.Y.Zhang,FormationofduplexmicrostructureinZr-2.3Nballoyanditsplasticbehaviouratvariousstrainrates.InternationalJournalofPlasticity54(2014)163-177. [2]L.Qu,Z.N.Yang,F.C.Zhang,M.Zhang,X.Y.Zhang,R.P.Liu,Effectofdeformationandheattreatmentonthemicrostructureandmechanicalpropertiesofβ-Zr40Ti5Al4Valloy,JournalofAlloysandCompounds612(2014)80-89. [3]X.Y.Feng,F.C.Zhang,J.Kang,Z.N.Yang,X.Y.Long,Slidingwearandlowcrclefastiguepropertiesofnewcarbidefreebainiticrailsteel,MaterialsScienceandTechnology30(2014)1410-1418. [4]J.Kang,F.C.Zhang,X.Y.Long,Z.N.Yang,SynergisticenhancingeffectofN+Calloyingoncyclicdeformationbehaviorsinausteniticsteel,MaterialsScienceandEngineeringA610(2014)427-435. [5]J.Kang,F.C.Zhang,Z.N.Yang,X.Y.Long,CyclicdeformationbehaviorofanewN+Calloyingausteniticmanganesesteel,AdvancedMaterialsResearch891-892(2014)1621-1626. 2013年 [1]YangZhinan,LiuFengchao,YanZhigang,ZhangFucheng,EffectofAnnealingonMicrostructureandHardnessinHotandColdRolledZr705,RareMetalMaterialsandEngineering,42(2013)254-258. [2]X.Y.Feng,F.C.Zhang,Z.N.Yang,M.Zhang,WearbehaviourofnanocrystallizedHadfieldsteel,Wear,305(2013)299-304. [3]W.M.Ke,F.C.Zhang,Z.N.Yang,M.Zhang,Micro-characterizationofmacro-slidingwearforsteel,MaterialsCharacterization82(2013)120-129. [4]张福成,杨志南,康杰,铁路辙叉用贝氏体钢研究进展,燕山大学学报,37(2013)1-7. 2012年 [1]Z.N.Yang,F.C.Zhang,Y.Y.Xiao,Z.G.Yan,Dynamicrecovery:TheexplanationforstrainsofteningbehaviourinZr-2.3Nballoy,ScriptaMaterialia67(2012)959-962. [2]F.C.Liu,Z.N.Yang,C.L.Zheng,F.C.Zhang,Simultaneouslyimprovingthestrengthandductilityofcoarse-grainedHadfieldsteelwithincreasingstrainrate,ScriptaMaterialia66(2012)431–434. [3]Z.N.Yang,F.C.Liu,F.C.Zhang,Z.G.Yan,Y.Y.Xiao,MicrostructuralevolutionandmechanicalpropertiesinZr705duringtherollingprocess,MaterialsScienceandEngineeringA544(2012)54–58. [4]Z.N.Yang,Y.Y.Xiao,F.C.Zhang,Z.G.Yan,EffectofcoldrollingonmicrostructureandmechanicalpropertiesofpureZr,MaterialsScience&EngineeringA556(2012)728–733. [5]Z.N.Yang,F.C.Zhang,F.C.Liu,Z.G.Yan,Y.Y.Xiao,AchievinghighstrengthandtoughnessinaZr–2.3Nballoybytheformationofduplexmicrostructure,MaterialsandDesign40(2012)400–406. 2011年 [1]F.C.Zhang,Z.N.Yang,L.H.Qian,F.C.Liu,B.LvandM.Zhang,Highspeedpounding:AnoveltechniqueforthepreparationofathicksurfacelayerwithahardnessgradientdistributiononHadfieldsteel,ScriptaMaterialia64(2011)560–563. [2]杨志南,张明,张福成,冯晓勇,高密度脉冲电流对服役后期高锰钢辙叉组织结构的影响,材料研究学报,25(2011)342-346. [3]杨志南,张福成,张明,刘峰超,孙登月,高锰钢辙叉机械冲击预硬化工艺研究,机械工程学报,47(2011)20-24.

学术兼职

1.中国轴承工业协会技术委员会第七届材料学部委员 2.河北省机械工程学会热处理委员会第七届管理委员会委员 3.CSTM金属磨损控制与成型技术委员会委员 4、国家稀土功能材料创新战略联盟理事 5、《中国冶金》2020年“轴承与轴承钢”专刊客座编辑

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