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韩奇钢

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基本情况

姓名:韩奇钢

性别:男

职称:教授

职务:副院长

所在系别:辊锻工艺研究所

是否博导:是

最高学历:研究生

最高学位:博士

电话:13331756990;13844065361

Email:hanqg@jlu.edu.cn

备注:国家优青,课题组主页:http://www.hanqigang.icoc.vc/


详细情况

所在学科专业: 材料加工工程
所研究方向:

1.航空结构电储能一体化纤维复材构件设计制造

2.高铁动车高性能纤维复材曲面构件柔性制造

3.新能源汽车轻量化纤维复材零部件仿生设计制造

讲授课程:

研究生课程:数字化成形理论与应用

本科生课程:材料成型原理、有限元法B等
教育经历: 2015/04-2017/05,中国科学院长春应用化学研究所,稀土资源利用国家重点实验室,博士后
2010/07-2012/10,吉林大学,材料科学与工程学院,博士后
2008/09-2010/06,吉林大学,超硬材料国家重点实验室,博士(提前一年毕业)
2005/09-2008/06,吉林大学,超硬材料国家重点实验室,硕士
工作经历: 2015/10-至今,吉林大学,博士生导师
2016/09-至今,吉林大学,教授
2013/10-2014/09, University of Birmingham (UK), College of Engineering and Physical Sciences,Academic  Visitor
2011/09-2016/08,吉林大学,副教授
2010/07-2011/09,吉林大学,讲师
科研项目:

在研科研项目:

1.国家重点研发计划“工程科学与综合交叉”重点专项子课题:考虑工艺约束的复材壁板结构设计与修复方法研究,120万,2022.01-2026.12

2.国家基金委优秀青年科学基金项目:纤维增强金属层合材料成形制造,120万,2021.01-2023.12

3.国家重点研发计划“变革性技术关键科学问题”重点专项子课题:过流曲面异质材料刚柔耦合与定向排布组合仿生协同强化技术-1,100万,2019.09-2024.08

4.国家基金委面上项目:仿生物多区纤维结构与抗冲击功能的复合材料机翼蒙皮设计原理与技术,60万,2020.01-2023.12.

学术论文:

代表性学术论文:

[30] Qigang Han*, Yalan Sheng, et al. Carbon fiber reinforced epoxy composite combining superior electrochemical energy storage and mechanical performance[J]. Chemical Engineering Journal, 2022, 437: 135228. (SCI-13.273)

[29] Xu Liu, Qigang Han*, et al. A Biomimetic Polymer-Based Composite Coating Inhibits Zinc Dendrite Growth for High-Performance Zinc-Ion Batteries[J]. Applied Materials & Interfaces, 2022, 14(8): 10384-10393. (SCI-9.229)

[28] Xu Liu, Qigang Han*, et al. Achieving mechanically sturdy properties and high energy density for Zn-ion structural batteries based on carbon-fiber-reinforced composites[J]. Composites Science and Technology, 2022, 218: 109156. (SCI-8.528)

[27] Qigang Han*, Xu Zhang, et al. Temperature-Dependent Nanopolyhedron Carbon-Decorated Sb for High-Performance Lithium-Ion Batteries[J]. ChemElectroChem, 2021, 8(8): 1486-1492. (SCI-4.59)

[26] Qigang Han*, Jiahui Wang, et al. An effective model for mechanical properties of nacre-inspired continuous fiber-reinforced laminated composites[J]. Mechanics of Advanced Materials and Structures, 2020, 28(18): 1849-1857. (SCI-4.03)

[25] Qigang Han, Hanlin Qin, et al. Mechanical properties of a novel dactyl-inspired green composite sandwich structures with basalt fiber[J]. Journal of Sandwich Structures & Materials, 2021, 23(3): 803-813. (SCI-5.497)

[24] Qigang Han, Mingdi Shi, et al. Bio-mesopores structure functional composites by mushroom-derived carbon/NiO for lithium-ion batteries[J]. Journal of Alloys and Compounds, 2020, 848: 156477. (SCI-5.316)

[23] Qigang Han*, Xu Zhang, et al. Preparation of multifunctional structural P-CF@ZnCo2O4 composites used as structural anode materials[J]. Journal of Alloys and Compounds, 2020, 842: 155743. (SCI-5.316)

[22] Qigang Han, Wenqiang Zhang, et al. Preparation of shape-controlled electric-eel inspired SnO2@C anode materials via SnC2O4 precursor approach for energy storage[J]. Journal of Materials Science, 2020, 55(25): 11524-11534. (SCI-4.22)

[21] Qigang Han*, Hanlin Qin, et al. Study on mechanical properties of multi-structure dactyl-inspired sandwich honeycomb with basalt fiber[J]. Composite Structures, 2020, 247: 112467. (SCI-5.407)

[20] Qigang Han*, Xu Zhang, et al. Preparation of multifunctional P-CF@SnO2-MOF composite used as structural anode materials[J]. Journal of Electroanalytical Chemistry, 2020, 871: 114355. (SCI-4.464)

[19] Qigang Han*, Hanlin Qin, et al. Experimental investigation on impact and bending properties of a novel dactyl-inspired sandwich honeycomb with carbon fiber[J]. Construction and Building Materials, 2020, 253: 119161. (SCI-6.141)

[18] Qigang Han*, Shaoqian Shi, et al. Study on impact resistance behaviors of a novel composite laminate with basalt fiber for helical-sinusoidal bionic structure of dactyl club of mantis shrimp[J]. Composites Part B, 2020, 191: 107976. (SCI-9.078)

[17] Qigang Han*, Jiahui Wang, et al. Design of a flexible bio-inspired stretch forming machine for the fabrication of large radius bends parts[J]. The International Journal of Advanced Manufacturing Technology, 2020, 108(11-12): 3571-3578. (SCI-3.226)

[16] Qigang Han, Yao Li, et al. Two-step route for manufacturing the bio-mesopores structure functional composites by mushroom-derived carbon/Co3O4 for lithium-ion batteries[J]. Journal of Electroanalytical Chemistry, 2019, 848: 113347. (SCI-4.464)

[15] Qigang Han, Wenqiang Zhang, et al. Preparation of PAN-based carbon fiber@MnO2 composite as an anode material for structural lithium-ion batteries [J]. Journal of materials science, 2019, 54(18): 11972-11982. (SCI-4.22)

[14] Qigang Han, Xiang Li, et al. Carbon fiber@ pore-ZnO composite as anode materials for structural lithium-ion batteries[J]. Journal of Electroanalytical Chemistry, 2019, 833: 39-46. (SCI-4.464)

[13] Qigang Han, Di Geng, et al. Preparation of carbon cloth supported Sn thin film for structural lithium-ion battery anodes[J]. Journal of Electroanalytical Chemistry, 2018, 822: 17-22. (SCI-4.464)

[12] Fangxue Wang, Qigang Han*, et al. Synthesis and performances of carbon fiber@Co3O4 based on metal organic frameworks as anode materials for structural lithium-ion battery[J]. Journal of Electroanalytical Chemistry, 2017, 807: 196-202. (SCI-4.464)

[11] Qigang Han, Zheng Yi*, et al. Preparation of bamboo carbon fiber and sandwich-like bamboo carbon fiber@SnO2@carbon composites and their potential application in structural lithium-ion battery anodes. Journal of Alloys and Compounds, 2017, 709: 227-233. (SCI- 5.316)

[10] Zheng Yi, Qigang Han*, Xiang Li, et al. Two-step oxidation of bulk Sb to one-dimensional Sb2O4 submicron-tubes as advanced anode materials for lithium-ion and sodium-ion batteries[J]. Chemical Engineering Journal, 2017, 315: 101-107. (SCI- 13.273)

[9] Zheng Yi, Qigang Han*, et al. One-pot chemical route for morphology-controllable fabrication of Sn-Sb micro/nanostructures: Advanced anode materials for lithium and sodium storage[J]. Journal of Power Sources, 2017, 342: 861-871. (SCI- 9.127)

[8] Zheng Yi, Qigang Han*, et al. Sb nanoparticles encapsulated into porous carbon matrixes for high-performance lithium-ion battery anodes[J]. Journal of Power Sources, 2016, 331: 16-21. (SCI- 9.127)

[7] Zheng Yi, Qigang Han*, et al. Fabrication of One-Dimensional Sb@TiO2 Composites as Anode Materials for Lithium-Ion Batteries[J]. Journal of The Electrochemical Society, 2016, 163(13): A2641-A2646. (SCI-4.316)

[6] Zheng Yi, Qigang Han*, et al. Facile fabrication of SnO2@TiO2 core-shell structures as anode materials for lithium-ion batteries[J]. Journal of Materials Chemistry A, 2016, 4(33):12850-12857. (SCI- 12.732)

[5] Zheng Yi, Qigang Han*, et al. Facile synthesis of symmetric bundle-like Sb2S3 micron-structures and their application in lithium-ion battery anodes[J]. Chemical Communications, 2016, 52(49): 7691-7694. (SCI-6.222)

[4] Zheng Yi, Xin Tian, Qigang Han*, et al. One-step synthesis of Ni3Sn2@reduced graphene oxide composite with enhanced electrochemical lithium storage properties[J]. Electrochimica Acta, 2016, 192:188-195. (SCI- 6.901)

[3] Zheng Yi, Qigang Han*, et al. A novel strategy to prepare Sb thin film sandwiched between the reduced graphene oxide and Ni foam as binder-free anode material for lithium-ion batteries[J]. Electrochimica Acta, 2016, 190: 804-810. (SCI- 6.901)

[2] Qigang Han*, Menglu Chen, et al. Properties of Ti40.83 Zr40.83 Ni18.34 quasicrystalline alloys sintered by Spark Plasma Sintering[J]. Journal of Alloys and Compounds, 2015, 650: 154-158. (SCI- 5.316)

[1] Qigang Han, Bao Liu, et al, Design an Effective Solution for Commercial Production and Scientific Research on Gem-Quality, Large, Single-Crystal Diamond by High Pressure and High Temperature[J]. Crystal Growth & Design, 2011, 11(4): 1000–1005. (SCI- 4.076)

获奖情况:

1.《大型曲面柔性拉伸成形原理、关键技术及设备》,吉林省技术发明一等奖,2012,2/10。

2.《精密设备微振信号仿生超敏感知原理与关键技术》,吉林省技术发明一等奖,2019,8/15。

社会兼职:

(1)2021.09-2024.12 中国材料研究学会青年工作委员会理事

(2)2021.02-2025.02 威海市复合材料学会副会长

(3)2020.01-2024.12 中国机械工程学会塑性工程分会第十二届委员会委员

(4)2022.01-2024.12《机械科学与技术》编委

(5)2021.01-2022.12《Advanced Fiber Materials》首届青年编委

(6)2021.01-2025.12《精密成形工程》通讯编委

 

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