发布日期:2024-04-06 浏览次数:次
个人经历 Personal experience 工作经历 教育经历 6. 2018/07–至 今:西北工业大学理学院,教授;5. 2009/04–2018/07:西北工业大学理学院,副教授;4. 2012/01–2012/12:德国莱布尼兹固体物理与材料研究所(IFW),访问学者;3. 2004/04–2009/04:西北工业大学理学院,讲师;2. 2002/07–2004/04:西北工业大学理学院,助教;1. 1997/07–1999/09:延安大学计算中心,助教。 3. 2002/09–2008/11:西北工业大学理学院读博士学位,获工学博士学位; 2. 1999/09–2002/06:兰州大学物理科学与技术学院读硕士研究生,获理学硕士学位; 1. 1993/09–1997/06: 延安大学物理系读本科,获理学学士学位。
教育教学 Education and teaching 教育教学 4. 主讲本科生课程《固体物理》,大三秋季学期,物理系5个专业本科生 3. 主讲本科生课程《大学物理》、《材料分析与测试技术》 2. 主讲研究生课程《固体物理实验方法》、《高等非晶态物理学》、《国防技术物理概论》 1. 从事大学生思想政治教育
荣誉获奖 Awards Information 3. 2018年荣获陕西省科学技术奖二等奖1项(第四获奖人) 3. 2018年荣获陕西高等学校科学技术一等奖1项(第四获奖人) 2. 2016年荣获西北工业大学优秀党务工作者称号 1. 2010年荣获陕西省科学技术奖一等奖1项(第六获奖人)
科学研究 Scientific Research 6. 2017/01–2020/12:国家自然科学基金面上项目(Grant No.51671161),空间模拟条件下锆基合金的非平衡凝固研究、60万元、在研、主持; 5. 2017/01–2018/12:陕西省自然科学基础研究计划项目(Grant No.2017JM5116),静电悬浮条件下钛基合金熔体非平衡液固相变行为研究、3万元、在研、主持; 4. 2014/01–2018/12:国家自然科学基金重大科研仪器研制项目(Grant No.51327901),基于静电悬浮的金属材料快速凝固实验系统、3800万元、在研、主要参与; 3. 2014/01–2017/12:国家自然科学基金面上项目(Grant No.51371150),具有特宽凝固温度范围合金的深过冷与快速枝晶生长研究、85万元、在研、主要参与; 2. 2003/05–2007/04:国家自然科学基金重大研究计划项目(Grant No.50395105),超常条件下材料凝固凝固理论研究、600万元、已结题、参与; 1. 2002/01–2007/12:国家自然科学基金创新群体项目(Grant No.50121101),空间材料科学的地面模拟研究、750万元、已结题、主要参与。
学术成果 Academic Achievements [49] Zequn Zhang, Kaikai Song, Shu Guo, Qisen Xue, Hui Xing, Chongde Cao, Fuping Dai, Bernhard V?lker, Anton Hohenwarter, Tapabrata Maity, Niraj Chawake, Jeong-Tae Kim, Li Wang, Ivan Kaban,Jürgen Eckert, Optimizing mechanical properties of Fe26.7Co26.7Ni26.7Si8.9B11 high entropy alloy by inducing hypoeutectic to quasi-duplex microstructural transition,Scientific Reports, 2018, 360 (9)[48] Ying Ruan, Fuping Dai, Shouyi Chang, Bingbo Wei, Thermodynamic Characteristics, Phase Separation, and Nanomechanical Properties of Ternary Fe-Co-Cu Alloys with Equiatomic Fe and Co Compositions, Metallurgical and Materials Transactions A, 2018,49A (12):6255-6264.[47] Fuping Dai,Yuhao Wu,Weili Wang,Bingbo Wei,Containerless Solidification Processing and Phase-Field Simulation for Ternary Fe-Cu-Co Peritectic Alloy Under Reduced-Gravity Conditions,Metallurgical and Materials Transactions A, 2018, 49A(11):5478-5487.[46] Fuping Dai,Weili Wang, Ying Ruan, Bingbo Wei,Liquid phase separation and rapid dendritic growth of undercooled ternary Fe60Co20Cu20 alloy,Applied Physics A,2018,124:20 . [45] Wei Zhai, Chaohuan Wang, Jichao Qiao, J.M. Pelletier, Fuping Dai, Bingbo Wei,Distinctive slow b relaxation and structural heterogeneity in (LaCe)-based metallic glass,Journal of Alloys and Compounds, 2018, 742: 536-541.[44] Ying Ruan, Haizhe Zhu, Qingqing Wang, Fuping Dai, Delu Geng and Bingbo Wei, Dendrite growth and micromechanical properties of rapidly solidified ternary Ni-Fe-Ti alloy, Progress in Natural Science: Materials International, 2017, 27 (5): 635-639. [43] 谷倩倩,阮莹,代富平,微重力下Fe-Al-Nb合金液滴的快速凝固机理及其对显微硬度的影响,物理学报,2017,66(10):106401. [42] 朱海哲,阮莹,谷倩倩,闫娜,代富平,落管中Ni-Fe-Ti合金的快速凝固机理及其磁学性能,物理学报,2017,66(13):138101.[41] Zhijie Yan,Kaikai Song,Yong Hu,Fuping Dai,Zhibing Chu,Jürgen Eckert, Localized crystallization in shear bands of a metallic glass,Scientific Reports, 2016,6. [40] Zhijie Yan,Yong Hu,Kaikai Song,Fuping Dai,Jie He,Jürgen Eckert, Vickers-indentation-induced crystallization in a metallic glass,Applied Physics Letters,2015,106(10):101909-1-101909-4. [39] Chunyan Yang,Fuping Dai,Rong Zhang,Liuhui Li,Qian Zhou,Elastic, phonon and thermodynamic properties of ZnAl2O4 and ZnAl2S4 compounds from first–principles calculations,Solid State Sciences,2015,40:7-12. [38] Jie He,Norbert Mattern,Ivan Kaban,Fuping Dai,Kaikai Song,Zhijie Yan,Jiuzhou Zhao,Do Hyang Kim,Jürgen Eckert,Enhancement of glass-forming ability and mechanical behavior of zirconium–lanthanide two-phase bulk metallic glasses, Journal of Alloys and Compounds,2015,618:795-802. [37] Jian Liu,Pengna Zhang,Fuping Dai,Aru Yan,A new approach to prepare spherical La-Fe-Si-Co magnetocaloric refrigerant particles,Scripta Materialia, 2013,69(6):485-488. [36] 边文花,代富平,王伟丽,赵宇龙,急冷条件下 NiAl-Mo 三元共晶合金的组织形成机制,物理学报,2013,(04):480-486. [35] Ying Ruan,Fuping Dai,Rapid dendrite growth subjected to multi-solute trapping in an undercooled Fe-based quaternary alloy,Intermetallics,2012,25:80-85. [34] Fan Ye,Xingmin Cai,Fuping Dai,Shouyong Jing,Dongping Zhang,Ping Fan, Liju Liu,The field emission of Cu-doped ZnO,Physica Status Solidi B-Basic Solid State Physics,2012,249(3):596-599. [33] Fan Ye,Xingmin Cai,Fuping Dai,Dongping Zhang,Ping Fan,Lijun Liu,The field emission of indium-doped ZnO films fabricated by room temperature DC magnetron sputtering,Physica B: Condensed Matter,2012,407(1):64-67. [31] 鲁晓宇,廖霜,阮莹,代富平,快速凝固 Ti-Cu-Fe 合金的相组成与组织演变规律,物理学报,2012,(21):352-358. [30] Fan Ye,Xingmin Cai,Fuping Dai,Dongping Zhang,Ping Fan,Lijun Liu,Room temperature DC magnetron sputtering deposition and field emission of Al-doped ZnO films,Physica Status Solidi A-Applications and Materials Science,2011, 208(8):1908-1912. [29] Ying Ruan,Fuping Dai,Bingbo Wei,Formation mechanism of the primary faceted phase and complex eutectic structure within an undercooled Ag-Cu-Ge alloy, Applied Physics A: Materials Science and Processing,2011,104(1):275-287. [28] Na Yan,Fuping Dai,Weili Wang,Bingbo Wei,Crystal Growth in Al72.9Ge27.1 Alloy Melt under Acoustic Levitation Conditions,Chinese Physics Letters,2011, 28(7):07810-1-07810-4. [27] Ruibo Song,Fuping Dai,Bingbo Wei,Dendritic growth and solute trapping in rapidly solidified Cu-based alloys , Science China-Physics Mechanics & Astronomy,2011,54(5):901-908. [26] Fan Ye,Xingmin Cai,Fuping Dai,Shouyong Jing,Dongping Zhang,Ping Fan, Lijun Liu,Cu–In–O composite thin films deposited by reactive DC magnetron sputtering,Physica B: Condensed Matter,2011,406(3):516-519. [25] Duyang Zang,Haipeng Wang,Fuping Dai,D Langevin,Bingbo Wei,Solidi fication mechanism transition of liquid Co-Cu-Ni ternary alloy,Applied Physics A: Materials Science and Processing,2011,102(1):141-145. [24] 闫娜,王伟丽,代富平,魏炳波,三元 Co-Cu-Pb 偏晶合金的快速凝固组织形成规律研究,物理学报,2011,60(03):471-479. [23] 张波,鲁晓宇,代富平,阮莹,深过冷Fe-Mo合金中初生α-Fe相的快速生长,中国有色金属学报,2011,21(11):2744-2750.[22] Li Li,Xiaoyu Lu,Chongde Cao,Fuping Dai,Solidification microstructure and phase constitution of Fe-7.5% Mo-16.5% Si ternary quasiperitectic alloy,Chinese Science Bulletin,2010,55(16):1674-1678. [21] 范龙,鲁晓宇,代富平,自由落体条件下Fe-23%Mo-27.5%Si三元包共晶合金的快速凝固,铸造,2010,59(8):775-779. [20] 丁建民,代富平,自由落体条件下Ni-Pb-Si/Ge合金的组织形成规律,有色金属,2010,62(2):11-16. [19] Fuping Dai,Bingbo Wei,Rapid solidification of Al-Cu-Ag ternary alloy under the free fall condition,Science in China, Series G: Physics, Mechanics and Astronomy,2009,52(6):848-855. [18] Fuping Dai,Bingbo Wei,Core-shell microstructure formed in the ternary Fe-Co-Cu peritectic alloy droplet,Chinese Science Bulletin,2009,54(8):1287-1294. [17] Fuping Dai,Wenjun Xie,Bingbo Wei,Spherical ternary eutectic cells formed during free fall,Philosophical Magazine Letters,2009,89(3):170-177. [16] Jinfeng Xu,Fuping Dai,Bingbo Wei,Heat and mass transfer characteristics during rapid solidification of Fe-Cu peritectic alloys,Science in China, Series G: Physics, Mechanics and Astronomy,2008,51(5):459-469. [15] 万小波,代富平,阮莹,魏炳波,三元Fe-Co-Si合金中金属间化合物的生长特性研究,2008,26(4):399-403. [14] 原建琦,代富平,阮莹,魏炳波,三元Co-Cu-Si合金的液相分离与组织特征,西北工业大学学报,2008,26(3):314-320. [13] 李丽,鲁晓宇,代富平,落管中Fe-Mo-Si三元包共晶合金的快速凝固机制,铸造技术,2008,29(5):601-606. [12] Fuping Dai,Chongde Cao,Bingbo Wei,Phase separation and rapid solidification of liquid Cu60Fe30Co10 ternary peritectic alloy,Science in China, Series G: Physics, Mechanics and Astronomy,2007,50(4):509-518. [11] Ying Ruan,Fuping Dai,Bingbo Wei,Formation of zeta phase in Cu-Ge peritectic alloys,Chinese Science Bulletin,2007,52(19):2630-2635. [10] Wenjing Yao,Fuping Dai,Bingbo Wei,Monte Carlo simulation for surface tension of liquid Co-Mo alloys,Philosophical Magazine Letters,2007,87(9):613-623. [9] Weili Wang,Fuping Dai,Bingbo Wei,Formation mechanism of primary phases and eutectic structures within undercooled Pb-Sb-Sn ternary alloys,Science in China, Series G: Physics, Mechanics and Astronomy,2007,50(4):472-490. [8] Wenjing Yao,Fuping Dai,Bingbo Wei,Solute distribution within rapidly grown Fe-Co single phase,Chinese Physics Letters,2007,24(2):508-511.[7] 徐锦锋,代富平,魏炳波,急冷条件下 Cu-Pb 偏晶合金的相分离研究,物理学报, 2007,(07):3996-4003. [6] 梅策香,阮莹,代富平,魏炳波,深过冷 Ag-Cu-Ge 三元共晶合金的相组成与凝固特 征,物理学报,2007,(02):988-993. [5] 常海龙,王海鹏,代富平,魏炳波,三元Pb-Sb-Sn合金的快速凝固及组织特征,西北工业大学学报,2007,25(5):646-651. [4] 陈翔燕,陈长乐,陈志,代富平,旋转磁场及Ce对Sn-Bi合金凝固组织的影响,特种铸造及有色合金,2007,27(4):308-310.[3] Fuping Dai,Chongde Cao,Bingbo Wei,Thermophysical properties of Ni-5% Sn alloy melt,Science in China, Series G: Physics Astronomy,2006,49(2): 236-245.[2] 张蜡宝,代富平,熊予莹,魏炳波,深过冷 Ni-15%Sn 合金熔体表面张力研究,物理学报,2006,(01):419-423.[1] 代富平,吕淑媛,冯博学,蒋生蕊,陈冲,非晶态WO3薄膜电致变色特性的研究,物理学报,2003,(04):1003-1008.
团队信息 Team Information 本人所在团队为空间材料科学与技术实验室,成立于1993年,1997年批准为陕西省重点实验室,1999批准为航空科技重点实验室。实验室主要开展空间环境中材料的制备、物理化学性质与表征分析、以及特殊应用性能研究。实验室定位于国际前沿性基础理论研究和应用基础研究,为我国空间材料科学技术的发展提供前瞻性研究成果并培养高层次科技人才。 实验室面积约1200平方米,拥有大型实验器设备共20余台套,总价值约3000万元,主要有:静电悬浮实验装置、超声悬浮实验装置、电磁悬浮实验装置、落管实验装置、扫描电子显微镜、X射线衍射仪、大功率激光器、激光热导仪、差示扫描量热仪、热膨胀仪、并行计算机等。 近年来承担国家级科研项目30余项,总经费5000余万元。在国家自然科学基金、国家921工程等支持下,开展了空间材料科学地面模拟装置研制和金属材料的深过冷与快速凝固研究,并承担了国家载人航天工程空间科学实验任务。在Physical Review Letters、Acta Materialia、Applied Physics Letters 等国内外学报上发表学术论文300多篇,获国家自然科学二等奖1项,国家技术发明二等奖1项,陕西省基础研究重大贡献奖1项,省部级科学技术一等奖6项。