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支持扩展名:.rar .zip .doc .docx .pdf .jpg .png .jpeg(1)榆林市科技局,产学研项目,2023-CXY-197,高强度高韧性铁铝基复合材料的增 材制造技术,2024年1月至2025年12月,在研,主持
(2)陕西省科技厅,重点研发计划重点产业链群项目,耐高温高强韧抗腐蚀铁铝基共晶复合材料制备技术,2019ZDLGY0404,201901至202112,已结题,主持
(3)南昌航空大学轻合金加工科学与技术国防重点学科实验室,开放基金项目,gf201601001,FeAlTa三元合金的相选择及组织控制,201612至201811,已结题,主持
(4)陕西省科技厅,国际科技合作与交流计划项目,2016KW055,FeAl合金的增韧机理研究,201601至201712,已结题,主持
(5)陕西省人力资源和社会保障厅,留学人员科技活动择优资助项目,金属基复合材料的定向凝固组织与性能研究,201601至201712,已结题,主持
(6)国家自然科学基金委员会,青年基金项目,51201121,小平面相/非小平面相共晶的亚快速定向凝固特性与性能研究,201301至201512,已结题,主持
(7)陕西省科技厅,自然科学基金项目,2012JQ6004,小平面/非小平面共晶的定向生长机理研究,201301至201412,已结题,主持
(8)陕西省教育厅,专项科研基金项目,12JK0425,Fe(Al,Ta)/Fe2Ta(Al)复合材料的定向生长机理研究,201207至201412,已结题,主持
(9)教育部,高等学校博士学科点专项基金项目(新教师基金),20096120120017,NiNi3Si共晶自生复合材料的定向凝固特性,201001至201212,已结题,主持
(10)陕西省教育厅,专项科研基金项目,09JK511,SiTaSi2共晶的定向凝固特性研究,200903至201112,已结题,主持
(11)西北工业大学凝固技术国家重点实验室,开放课题项目,SKLSP200904,电子束区熔定向凝固NiNi3Si共晶自生复合材料,200901至201012,已结题,主持
发表的学术论文
[1] Chongyang Wu, ChunjuanCui, Wei Liu, Kai Zhang, Zhicong Wang, Yanan Zhao, Haijun Su. In-situ Observation of Ni-11.5wt%Si EutecticMicrostructure Evolution and Exploration of Strengthening Mode of Ni-Ni3SiEutectic Composites. Materials Chemistry and Physics, 2024, 317:129063.
[2] Chunjuan Cui, Yue Liu, Yanan Zhao, YanyunLiu, Yan Wang, Jian Wei, Ping Hu. Microstructures and Properties of Honeycombsulfur/carbon black/MoS2 Composites. Journal of Wuhan University ofTechnology-Materials Science, Accepted.
[3] Zhicong Wang, Chunjuan Cui, Yanan Zhao, Haolin Li, Tongchao Wu,Zhiqi Zhao, Jian Wei. MoS2nanospheres decorated reduced graphene oxide to promote catalytic activity forhigh-performance lithium-sulfur batteries. Energy & Fuels, 2023,37:12457-12466
[4] Zhicong Wang, Chunjuan Cui,Yanan Zhao, Qingzhe Cui, Chongyang Wu, Tongchao Wu, Jian Wei. VS4/MoS2 heterostructuresgrown along graphene to boost reaction kinetics and reversibility for highperformance Lithium sulfur batteries. Journal of Alloys and Compounds, 2023, 967:171820
[5] Kai Zhang, Chunjuan Cui, Li Deng, Yan Wang,Chongyang Wu, Haijun Su. In-Situ Observation of Solidification Process ofFe-Al-Ta Eutectic Alloy. Journal of Physics and Chemistry of Solids, 2023,172: 111067.
[6] Chunjuan Cui, Yanan Zhao, Zhicong Wang, YueLiu, Chongyang Wu, Kai Zhang, Jian Wei. S-sphere/C/MoS2 compositefor high-performance Lithium-Sulfur batteries. Ceramics International, 2022,48(19):27672-27680.
[7] ChunjuanCui, Chongyang Wu, Wei Liu, Kai Zhang, Yan Wang, Yanan Zhao, Yue Liu, HaijunSu. Effect of Metastable Phase Content Controlled by Heat-Treatmenton Corrosion Behavior of Directionally Solidified Ni-12wt%Si HypereutecticComposites, Materials Chemistry and Physics,2022,292: 126827.
[8] Chunjuan Cui, Kai Zhang,Chongyang Wu, Yuanyuan Lai, Yan Wang, Haijun Su. High Temperature Oxidation Behavior of DirectionallySolidified Fe(Al,Ta)/Fe2Ta(Al) Eutectic Composite. Journal of Alloys and Compounds. 2022, 913:165210
[9] Chunjuan Cui, Yan Wang, Kai Zhang,Chongyang Wu, Wei Liu, Li Deng, Cong Wang, Haijun Su. Crystalgrowth mechanism of directionally solidified Fe-Al-Ta eutectic composites athigher solidification rates. Vacuum, 2022, 199:110922.
[10] Chunjuan Cui, Deng Li, Wei Liu, Wang Yan,Yue Liu, Yuanyuan Lai, Yingying Liu, Haijun Su. High temperature tensileproperty and fracture behavior of directionally solidified Fe-Al-Ta eutecticcomposites. Journal of Wuhan University ofTechnology-Materials Science,2022, 37(1):110-116.
[11] Chunjuan Cui, Yan Wang, Kai Zhang,Chongyang Wu, Wei Liu, Li Deng, Cong Wang, Haijun Su. Mechanical properties ofFe-Al-Ta eutectic composites at higher solidification rates. Materials Science and Engineering A, 2021,824:141765
[12] Chunjuan Cui, Wei Liu, Deng Li, SongyuanWang, Haijun Su, Yu Lu. Effect of Metastable Phase on Corrosion Behavior ofDirectionally solidified Ni-Si Eutectic Composites. Rare Metal MaterialsEngineering, 2021, 50(9):3110-3115
[13] Chunjuan Cui, Wei Liu, Li Deng, Yan Wang,Yue Liu, Songyuan Wang, Lulu Tian, HaijunSu.Primary dendrite arm spacing and preferential orientations of the Ni-Sihypereutectic composites at different solidification rates, Applied Physics A-Materials Science &Processing, 2020,126:898.
[14] Chunjuan Cui, Cong Wang, Pei Wang, Wei Liu, Yuanyuan Lai,Li Deng, Haijun Su. Microstructure and fracture toughness of the Bridgmandirectionally solidified Fe-Al-Ta eutectic at different solidification rates.Journal of Materials Science & Technology, 2020,42:63-74.
[15] Yanyun Liu, ChunjuanCui, Yue Liu, Wei Liu, Jian Wei. Application of MoS2 in the cathodeof lithium sulfur batteries. RSC Advances, 2020, 10:7384-7395.
[16] Chunjuan Cui, Yuanyuan Lai, Wei Liu, PeiWang, Yanyun Liu, Cong Wang, Haijun Su. Tensile and fatigue properties of theBridgman directionally solidified Fe-Al-Ta eutectic. Materials Science andEngineering A, 2019, 765: 138257.
[17] Chunjuan Cui, Songyuan Wang, Meng Yang, Haijun Su, Yagang Wen, Pei Wang,Chiqiang Ren. Microstructure and solid/liquid interface evolutions ofdirectionally solidified Fe-Al-Ta eutectic alloy. Journal of Wuhan Universityof Technology-Materials Science.2019,34(3):656-661.
[18] Chunjuan Cui, ChiqiangRen, Yanyun Liu, Songyuan Wang, Haijun Su. Directional solidification ofFe-Al-Ta eutectic by electron beam floating zone melting. Journal of Alloys andCompounds, 2019, 785:62-71.
[19] Chunjuan Cui, PeiWang, Meng Yang, Yagang Wen, Chiqiang Ren, Songyuan Wang. The preferentialorientation and lattice misfit of the directionally solidified Fe-Al-Taeutectic composite. Applied Physics A-Materials Science & Processing, 2018,214(1):12-16.
[20] Chunjuan Cui, LuluTian, Jun Zhang, Shengnan Yu, Lin Liu, Hengzhi Fu. Microstructure and propertyof directionally solidified Ni-Si hypereutectic alloy. Applied PhysicsA-Materials Science & Processing, 2016,122(3):213-216.
[21] Chunjuan Cui, TianXue, Yan Jin, Tongguang Zhai. Tensile and fatigue behavior of Ni-Ni3Sieutectic in situ composites, Materials Science and Technology, 2016,32(10):1053-1058.
[22] Chunjuan Cui, JunZhang, Tian Xue, Lin Liu, Hengzhi Fu. Effect ofSolidification Rate on Microstructure and Solid/Liquid Interface Morphology ofNi-11.5wt%Si Eutectic Alloy, Journal of Materials Science &Technology, 2015, 31(3):280-284 .
[23] Chunjuan Cui, JunZhang, Kun Wu, Dening Zou, Youping Ma, Lin Liu, Hengzhi Fu. Directionalsolidification of Ni-Ni3Si eutectic in situ composites by electronbeam floating zone melting. Physica B: Condensed Matter, 2013, 412:70-73.
[24] Chunjuan Cui, Jun Zhang, Kun Wu, Youping Ma, Lin Liu,Hengzhi Fu. Microstructure and properties of Ni–Ni3Si composites bydirectional solidification. Physica B: Condensed Matter, 2012, 407(17):3566–3569
[25] Chunjuan Cui, Jun Zhang, Lin Liu, HengzhiFu. Mechanical properties of the TaSi2fibers by nanoindentation. J. Mater. Sci. Technol., 2010,26(1): 65-68
[26] Chunjuan Cui, Jun Zhang, Haijun Su, LinLiu, Hengzhi Fu. Growth mechanism of the directionally solidified Si-TaSi2eutectic in situ composite. JCrystal Growth,2009,311(8):2555-2559Chunjuan Cui, Jun Zhang, Zhiwei Jia, HaijunSu, Lin Liu, Hengzhi Fu. Microstructure and field emission properties of theSi-TaSi2 eutectic in situ composites by electron beamfloating zone melting technique. J Crystal Growth, 2008, 310(1):71-77.
[27] Chunjuan Cui, Jun Zhang,Guannan Wu, Min Han, Lin Liu, Hengzhi Fu. Thepreferential orientation of the directionally solidified Si-TaSi2eutectic in situ composite. J Crystal Growth, 2007, 309: 93-96.
[28] Chunjuan Cui, Jun Zhang,Bo Li, Min Han, Lin Liu, Hengzhi Fu. Microstructure characteristics and interface morphology evolvement ofSi-TaSi2 eutectic in situ composite for field emission. J Crystal Growth, 2007, 299(2): 248-253.
[29] Chunjuan Cui, Jun Zhang,Min Han, Jun Chen, Ningsheng Xu, Lin Liu, Hengzhi Fu.Microstructure and properties of Si-TaSi2 eutectic in situ compositefor field emission. Chinese Science bulletin, 2007, 52(7): 584-589.
[30] Jun Zhang,Chunjuan Cui, Min Han, Jun Chen, Ningsheng Xu, Lin Liu, Hengzhi Fu.Microstructure and property of Czochralski-grown Si-TaSi2 eutecticin situ composite for field emission. J Crystal Growth, 2005, 276: 92-96.
[31] Haijun Su, Jun Zhang,Chunjuan Cui, Lin Liu, Hengzhi Fu. Rapid solidification of Al2O3/Y3Al5O12/ZrO2eutectic ceramic in-situ compositesby laser zone remelting. J Crystal Growth, 2007,307(2):448-456.
[32] Haijun Su, Jun Zhang, Chunjuan Cui, Lin Liu, Hengzhi Fu. Rapid solidification behaviour of Al2O3/Y3Al5O12(YAG) binary eutectic ceramic in-situ composites.Materials sciencce and Engineering A, 2008, 479(1-2): 380-388.
[33] Haijun Su, Jun Zhang, Chunjuan Cui, Lin Liu, Hengzhi Fu. Growth characteristic of Al2O3/Y3Al5O12(YAG) eutectic ceramic in-situcomposites by laser rapid solidification. J Alloys and compounds, 2008,456(1-2): 518-523.
[34] 崔春娟, 乌彤超, 王志聪, 李昊霖, 赵芷琪. 钛合金钻杆的研究现状及进展. 稀有金属,已接收
[35] 崔春娟, 赵芷琪, 张凯, 李昊霖, 乌彤超, 王志聪. 第一性原理计算在铁基合金中的研究进展. 稀有金属, 已接收
[36] 崔春娟, 赵亚男, 刘跃, 武重洋, 张凯, 王妍,魏剑. 花瓣状纳米硫和球状纳米硫的制备及性能. 材料导报,2023, 37(5):21080095(EI:
[37] 王妍, 崔春娟, 张凯, 邓力, 刘薇, 刘跃, 赵亚男, 武重洋. 定向凝固金属间化合物的研究进展. 材料导报,2022,36(24):20100245(EI: 20230513455050)
[38] 崔春娟,刘艳云,刘跃,魏剑,来园园,刘薇. 二硫化钼对锂硫电池正极材料性能的影响机理. 功能材料, 2021, 52(1):01039-01046
[39] 崔春娟,王松苑,任驰强,刘艳云,王丛,来园园. 合金材料亚稳相的研究进展.功能材料, 2019, 50(7):07052-07059
[40] 周明亮,崔春娟,于军辉,蔡庆玲.核级锆合金铸锭铁元素偏析研究[J].金属世界,2019(1):58-61.
[41] 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, 2019,33(4):1383-1388 (EI: 20193007224853).
[42] 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
[43] 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
[44] 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
[45] 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)
[46] 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.
[47] 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)
[48] 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)
[49] 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
[50] 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)
[51] 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)
[52] 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
[53] 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
[54] 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)
著作:
马幼平, 崔春娟,金属凝固理论及应用技术,北京:冶金工业出版社,90千字,2015
专利:
[1] 崔春娟, 任驰强, 问亚岗, 王珮, 王松苑. 一种Fe-Al-Ta复合材料的电子束悬浮区域熔炼定向凝固制备方法, 2019-5-10, 中国,ZL201710438831.0 2019 CN107254716 B
[2] 崔春娟, 来园园, 任驰强, 王丛, 刘艳云, 王松苑. 采用布里奇曼定向凝固技术制备Fe-Al-Ta多功能一体材料的方法,2020-10-9,中国, ZL2019 10491697.X 2020, CN110090942 B
[3] 来园园, 崔春娟, 任驰强, 邓力, 刘艳云, 王丛. 一种多功能一体Fe-Al-Ta共晶复合材料及其制备方法, 2020-12-1, 中国, ZL201911221058.8 2020,CN 110904389 B
[4] 刘艳云,崔春娟,任驰强,刘跃,刘薇,来园园,王丛. 一种采用分割技术的高效充放电方法, 2019.11.04,中国, ZL201911067201.2, CN110783653 B
[5] 张凯, 邓力, 崔春娟, 王妍, 武重洋, 刘薇, 赵亚男, 刘跃. 基于模拟仿真的Fe-Al-Ta三元合金定向凝固工艺优化方法,2021.06.01, 中国,ZL202110608787.X
[6] 武重洋, 崔春娟, 刘薇, 张凯, 赵亚男, 王研, 邓力, 刘跃. 一种低成本制备Ni-Ni3Si共晶自生复合材料的方法,2021.08.19, 中国, ZL202110955622.X
[7] 张凯,崔春娟,刘跃,王妍,赵亚男,武重洋. 一种补偿式定向凝固用液态金属冷却装置, 2021,10.13, 中国, ZL202111194117.4
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