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[1] ChunjuanCui,ChiqiangRen,YanyunLiu,SongyuanWang,HaijunSu.DirectionalsolidificationofFe-Al-Taeutecticbyelectronbeamfloatingzonemelting.JournalofAlloysandCompounds,2019,785:62-71.(SCI:000460386900009)(EI:20190406411060)
[2] ChunjuanCui,PeiWang,MengYang,YagangWen,ChiqiangRen,SongyuanWang.ThepreferentialorientationandlatticemisfitofthedirectionallysolidifiedFe-Al-Taeutecticcomposite.AppliedPhysicsA-MaterialsScience&Processing,2018,214(1):12-16(SCI:000419725800012)(EI:20174904513511)
[3] ChunjuanCui,MengYang,YagangWen,PeiWang,ChiqiangRen.Microstructureandsolid/liquidinterfaceevolutionsofdirectionallysolidifiedFe-Al-Taeutecticalloy.JournalofWuhanUniversityofTechnology-MaterialsScience.Accepted.
[4] ChunjuanCui,LuluTian,JunZhang,ShengnanYu,LinLiu,HengzhiFu.MicrostructureandpropertyofdirectionallysolidifiedNi-Sihypereutecticalloy.AppliedPhysicsA-MaterialsScience&Processing,2016,122(3):213-216(SCI:000371041700072)(EI:20161202133401)
[5] ChunjuanCui,TianXue,YanJin,TongguangZhai.TensileandfatiguebehaviorofNi-Ni3Sieutecticinsitucomposites,MaterialsScienceandTechnology,2016,32(10):1053-1058(SCI:000380755800012)(EI:20163902834777)
[6] ChunjuanCui,JunZhang,TianXue,LinLiu,HengzhiFu.EffectofSolidificationRateonMicrostructureandSolid/LiquidInterfaceMorphologyofNi-11.5wt%SiEutecticAlloy,JournalofMaterialsScience&Technology,2015,31(3):280-284(SCI:000350575700007)(EI:20150200419292)
[7] ChunjuanCui,JunZhang,KunWu,DeningZou,YoupingMa,LinLiu,HengzhiFu.DirectionalsolidificationofNi-Ni3Sieutecticinsitucompositesbyelectronbeamfloatingzonemelting.PhysicaB:CondensedMatter,2013,412:70-73(SCI:000314764900014)(EI:20130716010988)
[8] ChunjuanCui,JunZhang,KunWu,YoupingMa,LinLiu,HengzhiFu.MicrostructureandpropertiesofNi–Ni3Sicompositesbydirectionalsolidification.PhysicaB:CondensedMatter,2012,407(17):3566–3569(SCI:000305792400049)(EI:20122715198239)
[9] ChunjuanCui,JunZhang,LinLiu,HengzhiFu.MechanicalpropertiesoftheTaSi2fibersbynanoindentation.J.Mater.Sci.Technol.,2010,26(1):65-68(SCI:000274489800010)
[10] ChunjuanCui,JunZhang,HaijunSu,LinLiu,HengzhiFu.GrowthmechanismofthedirectionallysolidifiedSi-TaSi2eutecticinsitucomposite.JCrystalGrowth,2009,311(8):2555-2559(SCI:000266351600055)(EI:20091812062339)
[11] ChunjuanCui,JunZhang,ZhiweiJia,HaijunSu,LinLiu,HengzhiFu.MicrostructureandfieldemissionpropertiesoftheSi-TaSi2eutecticinsitucompositesbyelectronbeamfloatingzonemeltingtechnique.JCrystalGrowth,2008,310(1):71-77(SCI:000252565200014)(EI:074910962028)
[12] ChunjuanCui,JunZhang,GuannanWu,MinHan,LinLiu,HengzhiFu.ThepreferentialorientationofthedirectionallysolidifiedSi-TaSi2eutecticinsitucomposite.JCrystalGrowth,2007,309:93-96(SCI:00251495300016)(EI:074510903723)
[13] ChunjuanCui,JunZhang,BoLi,MinHan,LinLiu,HengzhiFu.MicrostructurecharacteristicsandinterfacemorphologyevolvementofSi-TaSi2eutecticinsitucompositeforfieldemission.JCrystalGrowth,2007,299(2):248-253(SCI:000244833100003)(EI:070710420065)
[14] ChunjuanCui,JunZhang,MinHan,JunChen,NingshengXu,LinLiu,HengzhiFu.MicrostructureandpropertiesofSi-TaSi2eutecticinsitucompositeforfieldemission.ChineseSciencebulletin,2007,52(7):584-589(SCI:000246677500016)
[15] JunZhang,ChunjuanCui,MinHan,JunChen,NingshengXu,LinLiu,HengzhiFu.MicrostructureandpropertyofCzochralski-grownSi-TaSi2eutecticinsitucompositeforfieldemission.JCrystalGrowth,2005,276:92-96(SCI:000228218300014)(EI:05259163260)
[16] HaijunSu,JunZhang,ChunjuanCui,LinLiu,HengzhiFu.RapidsolidificationofAl2O3/Y3Al5O12/ZrO2eutecticceramicin-situcompositesbylaserzoneremelting.JCrystalGrowth,2007,307(2):448-456(SCI:000250245900031)(EI:073710807866)
[17] HaijunSu,JunZhang,ChunjuanCui,LinLiu,HengzhiFu.RapidsolidificationbehaviourofAl2O3/Y3Al5O12(YAG)binaryeutecticceramicin-situcomposites.MaterialssciencceandEngineeringA,2008,479(1-2):380-388(SCI:000255256300046)(EI:081211158626)
[18] HaijunSu,JunZhang,ChunjuanCui,LinLiu,HengzhiFu.GrowthcharacteristicofAl2O3/Y3Al5O12(YAG)eutecticceramicin-situcompositesbylaserrapidsolidification.JAlloysandcompounds,2008,456(1-2):518-523(SCI:00025551900090)(EI:081511192504)
[19] 卢百平,崔春娟,田露露,问亚岗,王佩.布里奇曼定向凝固Ni-12wt%Si过共晶的弹性模量与断裂韧性研究.材料导报,已接收
[20] 邵明增,崔春娟,杨洪波.医用NiTi形状记忆合金表面氧化改性研究进展.材料导报,2018,32(4):1181-1186(EI:20184305984168)
[21] 崔春娟,杨猛,杨程,田露露,问亚岗.Ni-Si共晶的标准生成焓估算及晶体生长机理研究.热加工工艺,2017,46(2):113-115
[22] 崔春娟,问亚岗,杨猛,田露露.Fe-Al金属间化合物的研究进展[J].材料保护,2017,50(9):82-87.
[23] 田露露,崔春娟,问亚岗,喻圣男,杨猛,王珮.Ni-12mass%Si过共晶的凝固特性及晶体生长机理研究.材料热处理学报,2017,38(9):11-17
[24] 崔春娟,薛添,杨程,杨猛,田露露,问亚岗.Ni-Si共晶的位向关系及晶格错配度的高分辨透射电镜研究,功能材料,2016,47(8):08196-08199
[25] 崔春娟,杨猛,杨程,薛添,田露露,问亚岗.电子束区熔定向凝固Ni-Si共晶合金的固液界面演化规律,功能材料,2016,47(3):03085-03089
[26] 崔春娟,薛添,杨猛,蒋兴龙.亚共晶Ni-Si合金的凝固组织特征研究,功能材料,2015,46(14):14092-14096(EI:20153601250710)
[27] 崔春娟,薛添,杨猛,马晓康.定向凝固Ni-Ni3Si共晶的晶体学择优取向研究.凝聚态物理学进展,2014,3(3):33-38.
[28] 崔春娟,张军,吴昆,邹德宁,刘林,傅恒志.凝固速率对Si-Ta合金固液界面稳定性的影响.材料工程,2012,351(8):60-64(EI:20124115547751)
[29] 崔春娟,张军,吴昆,邹德宁,马幼平,刘林,傅恒志.Ni-Ni3Si共晶合金的定向生长特性.稀有金属材料与工程,2012,41:650-653(SCI:000312353300155)
[30] 崔春娟,吴昆,马幼平,杨蕾,翟克勇.Ni-Ni3Si共晶的制备工艺研究.中国科技论文在线,2011,http://www.paper.edu.cn,2011-04-11
[31] 崔春娟,张军,马幼平,杨蕾,翟克勇,刘林,傅恒志.定向凝固Ni-Ni3Si亚共晶的微观组织.中国科技论文在线,2010,http://www.paper.edu.cn,2010-11-24
[32] 崔春娟,张军,刘林,傅恒志.难熔金属硅化物TaSi2的研究进展.热加工工艺,2010,39(18):72-74
[33] 崔春娟,张军,刘林,傅恒志.场致发射阴极材料的研究进展.材料导报,2009,23(6):36-39
[34] 崔春娟,张军,苏海军,王红,刘林,傅恒志.Si-TaSi2共晶自生复合场发射材料的定向凝固组织特征.无机材料学报,2007,22(5):1019-1023(SCI:000249771300048)(EI:074410900351)
[35] 崔春娟,张军,李波,刘林,傅恒志.Si-TaSi2场发射阴极阵列制备工艺的研究.功能材料,2007,38(11):1806-1809(EI:20075210995388)
[36] 崔春娟,张军,苏海军,刘林,傅恒志.Si-TaSi2共晶自生复合场发射材料的定向凝固行为.中国有色金属学报,2007材料科学与工程全国博士生学术论坛,2007,17:180-184
[37] 崔春娟,张军,韩民,陈军,许宁生,刘林,傅恒志.Si-TaSi2共晶自生复合场发射材料的组织与性能.科学通报,2006,51(24):2915-2919
[38] 问亚岗,崔春娟,田露露,杨猛,薛添.定向凝固技术的研究进展与应用.材料导报,2016,30(2):116-120(EI:20161102098653)
[39] 吴昆,崔春娟,邹德宁,谢宸洋.Ni基复合材料的研究进展.热加工工艺,2013,42(18):7-9
[40] 王红,张军,崔春娟,刘林,傅恒志.难熔金属钼单晶的电子束区熔定向凝固.材料工程,2008,297(2):71-75(EI:20081911244264)
[41] 贾志伟,张军,崔春娟,刘林,傅恒志.非规则共晶凝固理论的研究进展.铸造,2008,57(5):428-432
[42] 李涛,翟克勇,马幼平,崔春娟.电脉冲对银合金凝固组织的影响.热加工工艺,2009,38(7):63-65
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