胡玉冰

2007.09-2011.06 中国海洋大学，本科

2011.09-2017.04 南京航空航天大学，博士研究生

2016.03-2016.09 利物浦大学，访问博士研究生

2017.4-至今：南京理工大学 化工学院

南京工业大学专业硕士研究生校外指导教师；

江苏省复合材料学会青委会委员、江苏省低碳学会理事、《Defence Technology》青年编委、《塑料工业》常委理事代表、中国兵工学会会员、中国力学学会会员、Polymers客座编辑；

Composites Part A: Applied Science and Manufacturing, Composites Part B: Engineering, Composite Structures, Polymer Testing, Materials & Design, Polymer Composites, Journal of Mechanical Engineering Science等期刊审稿人。

陶杰, 李华冠, 胡玉冰. 纤维金属层板的力学性能及成形技术.科学出版社. 2017.03

• JKW×66专项：××技术，2023-2025，512.98万，主持；

• ××预研专项：××应用基础研究，2023-2025，464万，主持；

• ××预研专项：××应用技术研究，2023-2025，100万，主持；

• ××预研专项：××技术研究，2023-2025，15万，主持；
  

• JCJQ重点项目子课题：××安全监控研究，2022-2025，250万，主持；

• JCJQ项目领域基金：××防护结构设计及性能研究，2022-2025，100万，主持；

• 国家自然科学基金：功能化石墨烯改性EPDM推进剂包覆层的结构-功能协同抗迁移机理研究，2021-2023，24万，主持；

• 实验室基金：多功能石墨烯改性推进剂绝热层抗迁移技术，2020-2022，20万，主持；

• 江苏省自然科学基金：碳纳米管增强Ti/CFRP超混杂层板的界面调控及其作用机制研究，2018-2020，20万，主持；

• 基础产品创新××专项：××关键技术-子课题，2018-2020，90万，主持； 

• ××预研专项：×××的应用，2017-2020，46万，主持；  

  
  

2024年度：

[1] Y Zhang,  Y Tian, X Liu,  H Zhou,  J Zhou, Y Hu*. Quasi-static indentation responses of FMLs/2.5 D woven carbon-fiber honeycomb sandwich structures under different structural parameters[J]. Thin-Walled Structures, 2024: 111702.（一区TOP，IF=6.4）

2023年度：

[2] Y Zhang*, J Wei, C Liu, Y Hu*, F She. Reduced Graphene Oxide Modified Ti/CFRP Structure-Function Integrated Laminates for Surface Joule Heating and Deicing[J]. Composites Part A: Applied Science and Manufacturing, 2023, 166: 107377.（一区TOP，IF=9.46）

[3] Chen H, Liu X, Zhang Y, Xiao C, Zhang T, Zhang Y*, Hu Y*. Numerical investigation of the compressive behavior of 2.5 D woven carbon-fiber (2.5 D-CFRP) honeycomb and experimental validation[J]. Composite Structures, 2023, 312: 116858.（一区TOP，IF=6.6）

[4] H Li, J Wei, Y Zhang*, Y Hu, W Jiang, T Zhang. GO/HTPB composite liner for anti-migration of small molecules[J]. Defence Technology, 2023, 22: 156-165.

2022年度：

[5] S Yin, ZH Lu, HR Bai, XY Liu, H Li, YB Hu*. Functionalized GO/Hydroxy-Terminated Polybutadiene Composites with High Anti-Migration and Ablation Resistance Performance[J]. Polymers, 2022, 14(16): 3315.

[6] Lu Z^＃, Hu Y^＃, Zhang B, et al. EPDM/GO composite insulation for anti-migration of plasticizers[J]. Journal of Polymer Research, 2022, 29(9): 1-9.

[7] Lu Z^＃, Hu Y^＃, Zhang B, et al. Anti‐migration performance of EPDM composite improved by octadecylamine‐functionalized graphene oxide[J]. Journal of Applied Polymer Science, 2022, 139(31): e52713.

[8] Li H, Jiang W, Zhang Y, Lu Z, Hu Y*, Xiao C, Zhang T, She F. Solid propellant liner with high anti-migration and strong adhesion based on isocyanate-functionalized graphene oxide and hydroxy-terminated polybutadiene[J]. Journal of Materials Science, 2022, 57(30): 14413-14429.

[9] Y Hu*, X Liu, F Ji, J Wei, W Jiang, Y Zhang*. Effects of the Electrophoretic Deposition of CNTs on the Mechanical Properties of Ti/CFRP Composite Laminates[J]. ACS Omega, 2022.

2021年度：

[10] Y Zhang*, X Liu, F Ji, C Liu, Y Hu, W Jiang, Y Xing*. Effect of chemically grafted CNTs onto carbon fiber on the mechanical properties of fiber metal laminates[J]. Composites Communications, 2021: 101005.（二区，IF=7.56）

2020年度：

[11] Y Hu*, C Liu, C Wang, X Fu, Y Zhang*. Study on the hygrothermal aging behavior and diffusion mechanism of Ti/CF/PMR polyimide composite laminates[J]. Materials Research Express, 2020, 7(7): 076508.

[12] Y Hu*, J Zhou, F Ji, Y Zhang*, Y Duan, Z Guan, J Tao. Optimization of preparation technology on fibre metal laminates (FMLs) for high-temperature applications[J]. International Journal of Lightweight Materials and Manufacture, 2020, 3(4): 317-327.

[13] Y Hu*, S Yuan, X Li, M Liu, F Sun, Y Yang, G Hao*, W Jiang. Preparation and characterization of nano-CL-20/TNT cocrystal explosives by mechanical ball-milling method[J]. ACS omega, 2020, 5(28): 17761-17766.

[14] F Ji, C Liu, Y Hu, S Xu, Y He, J Zhou, Y Zhang. Chemically grafting carbon nanotubes onto carbon fibers for enhancing interfacial properties of fiber metal laminate[J]. Materials, 2020, 13(17): 3813.

2019年度：

[15] Y Hu*, Y Zhang, X Fu, G Hao, W Jiang. Mechanical properties of Ti/CF/PMR polyimide fiber metal laminates with various layup configurations[J]. Composite Structures, 2019, 229: 111408.（一区TOP，IF=6.6）

[16] S Peng, S Wang, G Hao, C Zhu, Y Zhang, X Lv, Y Hu*, W Jiang*. Preparation of magnetic flower-like carbon-matrix composites with efficient electromagnetic wave absorption properties by carbonization of MIL-101 (Fe)[J]. Journal of Magnetism and Magnetic Materials, 2019, 487: 165306.

[17] F Wu, X Guo, G Hao, Y Hu*, W Jiang*. Self-supported hollow Co (OH) 2/NiCo sulfide hybrid nanotube arrays as efficient electrocatalysts for overall water splitting[J]. Journal of Solid State Electrochemistry, 2019, 23(9): 2627-2637.

[18] F Wu, X Guo, G Hao, Y Hu*, W Jiang*. Synthesis of Iron–Nickel Sulfide Porous Nanosheets via a Chemical Etching/Anion Exchange Method for Efficient Oxygen Evolution Reaction in Alkaline Media[J]. Advanced Materials Interfaces, 2019, 6(18): 1900788.

[19] Y Zhang, N Zhang, S Zhou, X Lv, C Yang, W Chen, Y Hu*, W Jiang*. Facile preparation of ZIF-67 coated melamine sponge for efficient oil/water separation[J]. Industrial & Engineering Chemistry Research, 2019, 58(37): 17380-17388.

[20] Y Xu, H Li, Y Yang, Y Hu, J Tao*. Determination of residual stresses in Ti/CFRP laminates after preparation using multiple methods[J]. Composite Structures, 2019, 210: 715-723.

[21] F Wu, X Guo, G Hao, Y Hu*, W Jiang*. Electrodeposition of sulfur-engineered amorphous nickel hydroxides on MIL-53 (Fe) nanosheets to accelerate the oxygen evolution reaction[J]. Nanoscale, 2019, 11(31): 14785-14792.

[22] X Guo, F Wu, G Hao, S Peng, N Wang, Q Li, Y Hu*, W Jiang*. Activating hierarchically hortensia-like CoAl layered double hydroxides by alkaline etching and anion modulation strategies for the efficient oxygen evolution reaction[J]. Dalton Transactions, 2019, 48(16): 5214-5221.

[23] Y Hu, H Li, X Fu, X Zhang, J Tao*, J Xu. Hygrothermal characterization of polyimide–titanium‐based fibre metal laminate[J]. Polymer Composites, 2018, 39(8): 2819-2825.

2019年之前：

[24] L Pan*, Y Wang, Y Hu, Y Lv, A Ali, N Roy, W Ma, J Tao. Investigation on the effect of configuration on tensile and flexural properties of aluminum/self-reinforced polypropylene fiber metal laminates[J]. Journal of Sandwich Structures & Materials, 2018: 1099636218789620.

[25] X Zhang, Y Hu, H Li, J Tian, X Fu, Y Xu, Y Lu, Y Chen, L Qin, J Tao*. Effect of multi‐walled carbon nanotubes addition on the interfacial property of titanium‐based fiber metal laminates[J]. Polymer Composites, 2018, 39(S2): E1159-E1168.

[26] Y Hu, H Li, J Tao*, L Pan, J Xu. The effects of temperature variation on mechanical behaviors of polyetheretherketone‐based fiber metal laminates[J]. Polymer Composites, 2018, 39(5): 1447-1454.

[27] X Fu, Y Hu, G Peng, J Tao*. Effect of reinforcement content on the density, mechanical and tribological properties of Ti3SiC2/Al2O3 hybrid reinforced copper-matrix pantograph slide[J]. Science and Engineering of Composite Materials, 2017, 24(6): 807-815.

[28] XL Fu, YB Hu, HG Li, J Tao*. Study on the thermal and mechanical properties of novel neutron shielding composite laminates at elevated temperature[J]. Materials Science and Engineering: A, 2017, 697: 101-110.

[29] Y Hu, W Zhang, W Jiang, L Cao, Y Shen, H Li, Z Guan, J Tao, J Xu. Effects of exposure time and intensity on the shot peen forming characteristics of Ti/CFRP laminates[J]. Composites Part A: Applied Science and Manufacturing, 2016, 91: 96-104.

[30] Fu X, Hu Y, Tao J*. Synthesis and tribological properties of copper-alumina nanocomposites prepared by coprecipitation technique[J]. Journal of Wuhan University of Technology-Mater. Sci. Ed., 2016, 31(5): 1123-1130.

[31] H Li, Y Hu, X Fu, X Zheng, H Liu, J Tao*. Effect of adhesive quantity on failure behavior and mechanical properties of fiber metal laminates based on the aluminum–lithium alloy[J]. Composite Structures, 2016, 152: 687-692.

[32] C Liu, D Du, H Li, Y Hu, Y Xu, J Tian, G Tao, J Tao*. Interlaminar failure behavior of GLARE laminates under short-beam three-point-bending load[J]. Composites Part B: Engineering, 2016, 97: 361-367.

[33] X Fu, X Tang, Y Hu, H Li, J Tao*. Effect of different lay-ups on the microstructure, mechanical properties and neutron transmission of neutron shielding fibre metal laminates[J]. Journal of Nuclear Materials, 2016, 475: 227-236.

[34] H Li, Y Hu, C Liu, X Zheng, H Liu, J Tao*. The effect of thermal fatigue on the mechanical properties of the novel fiber metal laminates based on aluminum–lithium alloy[J]. Composites Part A: Applied Science and Manufacturing, 2016, 84: 36-42.

[35] D Du, Y Hu, H Li, C Liu, J Tao*. Open-hole tensile progressive damage and failure prediction of carbon fiber-reinforced PEEK–titanium laminates[J]. Composites Part B: Engineering, 2016, 91: 65-74.

[36] L Pan*, L Duan, Z Zheng, Y Hu, A Aamir, S Bhuwan, J Tao, T Zhao, Z Du. Surface characteristics and adhesive strength to polyetheretherketone of titanium electrografted with aryl diazonium salt[J]. Materials & Design, 2016, 95: 555-562.

[37] H Li, Y Hu, J Ling, C Liu, G Tao, Z Sun, J Tao*. Effect of double aging on the toughness and precipitation behavior of a novel aluminum-lithium alloy[J]. Journal of Materials Engineering and Performance, 2015, 24(10): 3912-3918.

[38] YB Hu, HG Li, L Cai, JP Zhu, L Pan, J Tao*, J Xu. Preparation and properties of Fibre–Metal Laminates based on carbon fibre reinforced PMR polyimide[J]. Composites Part B: Engineering, 2015, 69: 587-591.

在读研究生：

博士生：

鲁哲宏（课题方向：石墨烯改性复合材料，邮箱：15736870133@163.com）

欧阳鹤（课题方向：安全弹药，邮箱：hfutoyh@163.com）

王妍（课题方向：吸波/电磁屏蔽复合材料，邮箱：wyan990329@163.com）

朱子强（课题方向：PEEK基复合材料动/静态力学响应，邮箱： zhuzq0727@163.com）

硕士生：

郭威（课题方向：碳纤维蜂窝夹芯结构，邮箱：）

张源（课题方向：缓冲吸能材料及结构，邮箱：479016714@qq.com）

华杰（课题方向：复合材料界面改性，邮箱：）

中央军委装备发展部表彰，2020年；

玄武引才大使，2022年