徐俊瑞 - 湘潭大学 - 机械工程学院

个人简介

徐俊瑞，男，博士，副教授，硕士生导师。获哈尔滨工业大学材料加工工程专业博士学位，师从李春峰教授。目前主要从事轻量化结构高速率成形新工艺与理论等方面的研究。研究方向包括铝、镁合金板材/管材磁脉冲冲击成形工艺与变形机理等研究。主持国家自然科学基金青年项目、湖南省自然科学基金面上/青年项目、湖南省教育厅优秀青年项目、重点实验室开放基金项目，参与973子项、国家自科面上等科研项目。主持科研项目 [1]国家自然科学基金青年项目，51405412，镁合金板材磁脉冲温热动态驱动成形及其机理研究，研究期限：2015.1-2017.12。 [2]湖南省自科基金面上项目，2018JJ2398，镁合金板材磁脉冲高速率驱动弹性颗粒介质温热成形新工艺基础研究，研究期限：2018-2019。 [3]凝固技术国家重点实验室开放基金项目，轻合金板材磁脉冲高速率驱动局部成形工艺研究，研究期限：2018-2019。 [4]材料成形与模具技术国家重点实验室开放基金项目，P2018-019，轻合金管件磁脉冲高速率驱动介质挤胀成形工艺研究，研究期限：2018.1-2019.12。 [5]湖南省自科青年基金项目，2015JJ3120，镁合金板材温热弹性介质软模成形研究，研究期限：2015-2017。 [6]湖南省教育厅优秀青年基金项目，15B227，高强钢板材磁脉冲压力驱动成形研究，研究期限：2015-2016。 [7]汽车零部件先进制造技术教育部重点实验室开放基金项目，2014KLMT06，DP590高强钢板材磁脉冲高速率驱动成形研究，2015-2016。 [8]汽车车身先进设计制造国家重点实验室开放基金项目，31315011，高强钢激光拼焊板扭转回弹研究，研究期限：2014.1-2015.10。 [9]湘潭大学科研启动基金，13QDZ27，镁合金板材壳体件的磁脉冲成形研究。参与科研项目 [1]国家自然科学基金面上项目，51775470，多机器人协同装配单元的布局优化与调度方法研究，2018.1-2021.12 [2]国家自然科学基金面上项目，51575467，基于板锻造技术的轻型材料实心凸起成形新工艺及其机理，2016.1-2019.12。 [3]973子项目，2011CB012805，多时空脉冲强磁场驱动材料局部流动行为及复合界面控制，2011-2016。

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[1]JunruiXu，DongCao,GangChen,WenzhenChen,YangLiu,DaiboZhu.ExperimentalandnumericalresearchofDP600highstrengthsteelinmagneticpulseformingwithdriversheet,TheInternationalJournalofAdvancedManufacturingTechnology,accept,2018.(SCI检索，IF=2.601) [2]JunruiXu，DongCao，JunjiaCui，XuZhang.ExperimentalResearchonTensileBehaviorofAdvancedHighStrengthSteelDP600atHighStrainRate.JournalofMaterialsEngineeringandPerformance,Majorrevision,2018.(SCI检索，IF=1.331) [3]JunruiXu,YingqiZhou,JunjiaCui,LiangHuang,XuZhang,GuangyaoLi.Effectsoftemperatureanddriversheetformagnesiumalloysheetinmagneticpulseforming.TheInternationalJournalofAdvancedManufacturingTechnology,95,3319-3333,2018.(SCI检索，IF=2.209) [4]JunruiXu,JingZhang,JunjiaCui,XuZhang,YangLiu.CharacteristicsofdrawingprocessofAA5182aluminumalloysheetduringrubber-padforming.TheInternationalJournalofAdvancedManufacturingTechnology,96,1139-1148,2018.(SCI检索，IF=2.209) [5]JunruiXu,JiaiSu,JunjiaCui,YangLiu,XuZhang,GuangyongSun.TensionbehaviorandmicrostructureevolutionforAZ31magnesiumalloyssheetathighstrainrate. InternationalJournalofMaterialsResearch,108,560-570,2017.(SCI检索，IF=0.687) [6]Junruixu,Yingqizhou,Junjiacui,Guangyongsun,Gangyaoli.ExperimentalstudyforrubberpadformingprocessofAZ31magnesiumalloyssheetsatwarmtemperature,TheInternationalJournalofAdvancedManufacturingTechnology,89,1079-1087,2017.(SCI检索，IF=2.209) [7]JunRuiXu*,JunJiaCui,GuangYongSun,YanRongLi,ChunFengLi.ExperimentalandNumericalResearchonProcessFormabilityinMagneticPulseFormingofAZ31MagnesiumAlloySheets,InternationalJournalofPrecisionEngineeringandManufacturing,16,1779-1788,2015.(SCI检索，IF=1.500) [8]JunruiXu*,JiaiSu,YanrongLi,JunjiaCui*,GuangyongSun*.Thermaleffectsinmagneticpulseformingofmagnesiumalloysheet,TheInternationalJournalofAdvancedManufacturingTechnology,81,755-770,2015.(SCI检索，IF=2.209) [9]JunRuiXu*,JunJiaCui,QiQuanLin,YanrongLi,ChunFengLi.MagneticpulseformingofAZ31magnesiumalloyshellbyuniformpressurecoilatroomtemperature,TheInternationalJournalofAdvancedManufacturingTechnology,77，289-304,2015.(SCI检索，IF=2.209) [10]JunRuiXu*,QiQuanLin,JunJiaCui*,ChunFengLi.FormabilityofmagneticpulseuniaxialtensionofAZ31magnesiumalloysheet,TheInternationalJournalofAdvancedManufacturingTechnology,72,665-676，2014.(SCI检索，IF=2.209) [11]JunRuiXu*,JunJiaCui*,QiQuanLin,ChunFengLi.EffectsofdriversheetonmagneticpulseformingofAZ31magnesiumalloysheets,TheInternationalJournalofAdvancedManufacturingTechnology,72,791-800，2014.(SCI检索，IF=2.209) [12]JunRuiXu*,HaiPingYu,JunJiaCui,ChunFengLi.FormabilityofAZ31magnesiumalloysheetsinMagneticpulsebulging,MaterialsScience&EngineeringA,569,150-158,2013.(SCI检索，IF=3.094) [13]JunRuiXu*,HaiPingYu,ChunFengLi.EffectsofprocessparametersonelectromagneticformingofAZ31magnesiumalloysheetsatroomtemperature,TheInternationalJournalofAdvancedManufacturingTechnology,66,1591-1602,2013.(SCI检索，IF=2.209) [14]JunRuiXu*,HaiPingYu*,ChunFengLi,AnExperimentonMagneticPulseUniaxialTensionofAZ31MagnesiumAlloySheetatRoomTemperature,JournalofMaterialsEngineeringandPerformance,22,1179-1185,2013.(SCI检索，IF=1.331) [15]XUJun-rui,YUHai-ping*,LIChun-feng.NumericalandexperimentalinvestigationofelectromagneticfreebulgingofAZ31magesiumalloysheet,JournalofIronandSteelResearch,International,19(Supplement1),451-454,2012.(SCI检索，IF=0.354) [16]JunruiXu*,JiaiSu,JunjiaCui,Guangyongsun,GuangYaoLi*.ForminglimitofAZ31magnesiumalloysheetsformagneticpulseformingatroomtemperature,IDDRG2015国际会议合作 [17]GangChen,YuJin,HongmingZhang,FeiHan,QiangChen*,JunruiXu*,ZudeZhao,Microstructuresandmechanicalpropertiesofin-situAl3Ti/2024Alcompositesaftersolutionandsubsequentagingtreatment.MaterialsScience&EngineeringA,724,181-188,2018.(SCI检索，IF=3.094) [18]HangOu,XuZhang,JunruiXu,JunjiaCui.MechanicalPropertiesandMicrostructureofHigh-StrengthSteelControlledbyHotStampingProcess.JournalofMaterialsEngineeringandPerformance,2018,DOI:10.1007/s11665-018-3290-1.(SCI检索，IF=1.331) [19]YangLiu,ZhongyiYin,YueLiu,CongGeng,XuChen*,JunruiXu*,JinfengPeng.StudyontheinvitrodegradationbehaviorofcommercialZn–4%Al–Sralloyforbiomedicalapplications.InternationalJournalofElectrochemicalScience,2018,13(2):1153–1167.(SCI检索，IF=1.469) [20]YangLiu*,CongGeng,QiquanLin,YifengXiao,JunruiXu,WeiKang*.Studyonhotdeformationbehaviorandintrinsicworkabilityof6063aluminumalloysusing3Dprocessingmap.JournalofAlloysandCompounds,2017,713(5):212–221(SCI检索，IF=3.133) [21]YangLiu*,CongGeng,YunkeZhu,JinfengPeng,JunruiXu.Hotdeformationbehaviorsandintrinsicworkabilityofcarbonnanotube–aluminumreinforcedZA27composites.JournalofMaterialsEngineeringandPerformance.2017,26(4):1967–1977.(SCI检索，IF=1.331) [22]XuZhang,JunjiaCui,JunruiXu,GuangyaoLi,Microstructureinvestigationson2A10aluminumalloybarssubjectedtoelectromagneticimpactupsetting.MaterialsScience&EngineeringA,702,142-152,2017.(SCI检索，IF=3.094) [23]JunjiaCui,GuangyongSun,JunruiXu,ZhidanXu,XiaodongHuang,GuangyaoLi.AstudyonthecriticalwallthicknessoftheinnertubeformagneticpulseweldingoftubularAl–Feparts.JournalofMaterialsProcessingTechnology,227,138-146,2016.(SCI检索，IF=3.147) [24]CuiJunjia,SunGuangyong,XuJunrui,HuangXiaodong,Liguangyao.Amethodtoevaluatetheformabilityofhigh-strengthsteelinhotstamping,MaterialsandDesign,77,95-109,2015.(SCI检索，IF=4.364)

个人简介

研究领域

近期论文