胡文强

博士、高聘副教授

基本信息

办公电话:010-51685554 电子邮件: wqhu@bjtu.edu.cn
通讯地址:北京市海淀区上园村3号北京交通大学 邮编:100044

教育背景

2011.09-2015.06   临沂大学              机械设计制造及其自动化         大学本科

2015.09-2017.06   北京交通大学        材料科学与工程专业               硕士研究生

2017.09-2022.03   北京交通大学        载运工具运用工程专业            博士研究生

2019.10-2021.10   佐治亚理工学院     材料科学与工程专业               国家公派博士生联合培养

工作经历

2022.06至今 北京交通大学  高聘副教授

研究方向

  • 不区分方向

招生专业

  • 材料科学与工程硕士
  • 材料工程硕士

科研项目

原位自生TiC-Ni3(Al,Ti)复相强化Ni基复合材料的制备及高温力学性能研究,中央高校基本科研业务费2018YJS144 主持

应力诱导Al2O3单晶纳米线的宏量制备及应用研究自然科学类人才基金项目M22XKRC00030主持

 Al-Li合金诱导单晶Al2O3纳米纤维的可控合成及力学性能,北京市自然科学基金青年基金23B20398,主持

 三维梯度网络构型镍基复合材料界面调控及强韧化机理研究,  河北省自然科学基金青年基金 E2024105074,主持

陶瓷基复合材料力学性能测试,红果园(横) M23GY00180, 主持

陶瓷基复合材料高温力学性能试验研究,红果园(横) M24GY00130主持

陶瓷基复合材料力学性能试验研究(II),红果园(横) M24GY00120, 主持

地铁受电弓滑板磨耗试验研究(III),自然科学横向项目  M24L00560,主持

MAC原位蜕变MC-(Ni-A)复相增强Ni基复合材料及其协同强化机制,国家自然科学基金51871011,黄振莺;于文波;贝国平;胡文强;蔡乐平;雷聪;王渊博

400 km/h高速列车受电弓滑板材料应用特性研究,北京市教委M18H100010, 翟洪祥;黄振莺;周洋;李世波;李翠伟;于文波;雷聪;蔡乐平;胡文强;陈思雨;王渊博;沃少帅;郑光明;赵勋

碳陶制动盘配对闸片委托开发,M18L00510,翟洪祥;黄振莺;雷聪;胡文强;蔡乐平;陈思雨;郑光明;王渊博;沃少帅

MAC 原位转化超细 MC 陶瓷增强 Ni 基复合材料的高温力学特性及组织调控,北京市自然科学基金2212046,黄振莺;于文波;胡文强;雷聪;王渊博;王弘杰;焦一丹;李学;于群

京港地铁十四号线受电弓碳滑板性能检测服务, 自然科学横向项目 M23L00270,黄振莺;胡文强;翟洪祥;周洋;李翠伟;陈占坤(研);于群(研);王弘杰(研);李学(研);庄慰慈(研);吴友波(研);杜洲(研);孙千雯(研)

 高速受电弓大电流载流能力试验,自然科学横向项目 M23L00080,黄振莺;胡文强;翟洪祥;周洋;李翠伟

CR450动车组MY131-PS8274-CED450滑板高速磨耗试验研究,自然科学横向项目M22L01470,黄振莺;胡文强;翟洪祥;周洋;于群(研);李学(研);王弘杰(研);庄慰慈(研);吴友波(研);陈占坤(研);杜洲(研);孙千雯(研);朱治翰(本)

地铁受电弓滑板磨耗试验研究(II) M24L00100 黄振莺 胡文强;翟洪祥;吴友波(研);庄慰慈(研);李学(研);孙千雯(研);杜洲(研);朱子强(研);廖梓凌(研)、

地铁受电弓滑板磨耗试验研究 M24L00010 黄振莺 胡文强;吴友波(研);杜洲(研);李学(研);孙千雯(研);庄慰慈(研)

接触网零部件材料分析实验技术服务 M23L01830 黄振莺 胡文强;于群(研);吴友波(研);王弘杰(研);李学(研);庄慰慈(研);杜洲(研);孙千雯(研);朱子强(研);廖梓凌(研)

受电弓滑板磨耗试验 M23L01780 黄振莺 胡文强;李学(研);庄慰慈(研);吴友波(研);孙千雯(研);杜洲(研);朱子强(研);廖梓凌(研)

一种多孔Ti3AlC2陶瓷的NaCl水洗制备方法等2项发明专利转让 M23ZH100020 黄振莺 翟洪祥;胡文强;李翠伟;周洋;李世波;罗潇(研);李萌启(研);蔡乐平(研);沃少帅(研)

弓网载流摩擦微观形貌测试研究 M23L00520 黄振莺 胡文强;庄慰慈(研);于群(研);吴友波(研);李学(研);王弘杰(研);杜洲(研);孙千雯(研);廖梓凌(本)

轨道交通新材料产业化中试熟化基地建设 M23I100011 周洋 胡文强;于文波

Ti3AlC2 MAX陶瓷粉体制备试验 M23L00480 黄振莺 胡文强;于群(研);王弘杰(研);李学(研);庄慰慈(研);吴友波(研);孙千雯(研);杜洲(研);陈占坤(研)

京港地铁十四号线受电弓碳滑板性能检测服务 M23L00270 黄振莺 胡文强;翟洪祥;周洋;李翠伟;陈占坤(研);于群(研);王弘杰(研);李学(研);庄慰慈(研);吴友波(研);杜洲(研);孙千雯(研)

高速受电弓大电流载流能力试验 M23L00080 黄振莺 胡文强;翟洪祥;周洋

CR450动车组MY131-PS8274-CED450滑板高速磨耗试验研究 M22L01470 黄振莺 胡文强;翟洪祥;周洋;于群(研);李学(研);王弘杰(研);庄慰慈(研);吴友波(研);陈占坤(研);杜洲(研);孙千雯(研);朱治翰(本)

CR450动车组碳滑板高速磨耗试验研究 M22L01460 黄振莺 胡文强;翟洪祥;周洋;于群(研);王弘杰(研);李学(研);庄慰慈(研);吴友波(研);陈占坤(研);孙千雯(研);杜洲(研);朱治翰(本)

RH86M6型碳滑板磨耗试验 M22L01390 黄振莺 胡文强;翟洪祥;周洋;陈占坤(研);于群(研);庄慰慈(研);王弘杰(研);李学(研);吴友波(研);杜洲(研);孙千雯(研)





教学工作

1.工程材料(本科生课程) 

2.陶瓷基复合材料(研究生课程)

论文/期刊

1.     W. Hu, S. Jhulki, W. Fu, L. Chen, F. Wang, K. Turcheniuk, A. Magasinski, G. Yushin*, Strain-Induced Transformation of Bulk Alloys to Zinc Nanowires, Chemistry of Materials 33(2021) 5368−5376

2.     W. Hu, Z. Huang*, Q.Yu, Y.Wang et al.Ti2AlC triggered in-situ ultrafine TiC/Inconel 718 composites: Microstructure and enhanced properties, Journal of Materials Science & Technology 51 (2020) 70–78

3.     W. Hu, Z. Huang*, L. Cai, C. Lei, Exploring the interfacial state and tensile behaviors in nickel matrix composite with in-situ TiC and γ′-Ni3(Al,Ti) reinforcements, Journal of Alloys and Compounds 765 (2018) 987-993

4.     W. Hu, Z. Huang*, G. Zheng, Y.B. Wang, Optimizing the microstructure and mechanical behaviors of in-situ TiC-γ′/Ni composites by subsequent thermal treatment, Journal of Alloys and Compounds 774 (2019) 739-747

5.     W. Hu, Z. Huang*, Y. Wang, X. Li, H. Zhai, Y. Zhou, L. Chen et al. Layered ternary MAX phases and their MX particulate derivative reinforced metal matrix composite: A review, Journal of Alloys and Compounds 856 (2021) 157313

6.     W. Hu, Z. Huang*, L.P. Cai, C. Lei, In-situ TiC and γ′-Ni3(Al,Ti) triggered microstructural modification and strengthening of Ni matrix composite by reactive hot-press sintering pure Ni and Ti2AlC precursor, Journal of Alloys and Compounds 747 (2018) 1043-1052

7.     W. Hu, Z. Huang*, L. Cai, C. Lei, H. Zhai, S. Hao, W. Yu, Y. Zhou, Preparation and mechanical properties of TiCx-Ni3(Al,Ti)/Ni composites synthesized from Ni alloy and Ti3AlC2 powders, Materials Science and Engineering A 697(2017) 48-54

8.     W. Hu, Z. Huang*, L. Cai, C. Lei, W. Yu, H. Zhai, S. Wo, X. Li, Y. Zhou, Microstructural characterization and mechanical properties of a novel TiC based cermet bonded with Ni3(Al,Ti) and NiAl duplexalloy, Materials Characterization 135 (2018) 295-302

9.     W. Hu, Z. Huang*, Q. Yu, Y. Wang et al. Investigation on High Temperature Mechanical Behaviors of TiC-γ′ Reinforced Ni Composite,Metals and Materials International 27(2021) 3003–3012

10.   胡文强,黄振莺*,翟洪祥,蔡乐平,雷聪,郝素明,颜世韬,周洋,原位生成 TiCx增强 Ni 合金复合材料的制备及力学性能研究,稀有金属材料与工程 Suppl.1(2018)169-172

11.   W. Hu, W. Fu, S. Jhulki, L. Chen, A. Narla, Z. Sun, F. Wang, A. Magasinski, G. Yushin*, Heat-Resistant Al2O3 Nanowire-Polyetherimide Separator for Safer and Faster Lithium-Ion Batteries, Journal of Materials Science & Technology 142 (2023) 112–120

12.   W. Hu, Q Yu , B Li , B Wen, H Han, Z Huang,Yang Zhou,A strong, machinable, and multifunctional Ti3SiC2-(Ti3SiC2-Cf) composite: Gradient architecture and mechanical properties,Ceramics International 50 (2024) 12244–12252

13.   W. Hu,H.Han,J.Zhao,H.Deng,P.Cai,Q.Sun, Q.Yu,W.Zhuang,Z.Huang,Y.Zhou,Ti3AlC2 preceramic paper derived in-situ laminatedTiC/Ni-Ni3(Al,Ti) composite:Microstructure,mechanical properties and fracture behavior,Journal of Alloys and Compounds 1004 (2024) 175818

14.   Y. Jiao, Z. Huang*, W. Hu, Q.Yu, Y. Wang, Y. Zhou, D. Dastan, In-situ hybrid Cr3C2 and γ′-Ni3(Al, Cr) strengthened Ni matrix composites: Microstructure and enhanced properties, Materials Science and Engineering: A, 820 (2021) 141524

15.   Y. Wang, Z. Huang*, W. Hu, L. Cai, C. Lei, Q. Yu, Y. Jiao, Preparation and characteristics of Ti3AlC2 -Al3Ti/Al composite materials synthesized from pure Al and Ti3AlC2 powders, Materials Characterization 178 (2021) 111298

16.   L. Chen, Y. Chen, C. Xu, W. Wang, W. Fu, W. Hu, M. Zhou, B. He, Q. Chen, Z. Hou, W. Xu, Etching engineering on controllable synthesis of etched N-doped hierarchical porous carbon toward efficient oxygen reduction reaction in zinc–air batteries, Materials Today Energy, 20(2021),100670

17.   L. Chen, Y. Chen, C. Xu, W. Wang, W. Fu, W. Hu, M. Zhou, B. He, Q. Chen, Z. Hou, W. Xu, Corrigendum to “Etching engineering on controllable synthesis of etched N–doped hierarchical porous carbon toward efficient oxygen reduction reaction in zinc–air batteriesˮ Materials Today Energy 20 (2021) 100733,

18.   L. Cai, Z. Huang*, W. Hu, Y. Chen, Z. Tan, M. Radovic, Effects of Al substitution with Si and Sn on tribological performance of Ti3AlC2Ceramics International 47(2021) 6352-6361

19.   C. Lei, Y. Zhou*, Z. Huang, W. Hu et al. Thermal shock behavior of co-continuous TiCx-Cu cermets in air and anaerobic environment, Ceramics International 47(2021) 16422-16431

20.   C. Lei, Y. Zhou*, Z. Huang, W. Hu et al. Fabrication, microstructure and mechanical properties of co-continuous TiCx/Cu-Cu4Ti composites prepared by pressureless-infiltration method, Ceramics International 45(2019) 2932-2939

21.   L. Cai, Z. Huang*, W. Hu, C. Lei, H. Zhai, Y. Zhou,Dry sliding behaviors and friction surface characterization of Ti3Al0.8Si0.2Sn0.2C2 solid solution against S45C steel. Ceramics International 45(2019) 2103-2110

22.   L. Cai, Z. Huang*, W. Hu, C. Lei, S. Wo, X. Li, H. Zhai, Y. Zhou, Fabrication and Microstructure of a New Ternary Solid Solution of Ti3Al0.8Si0.2Sn0.2C2 with High Solid Solution Strengthening Effect, Ceramics International 44(2018) 9593-9600

23.   L. Cai, Z. Huang*, W. Hu, S. Hao, H. Zhai, Y. Zhou, Fabrication, mechanical properties, and tribological behaviors of Ti2AlC and TiAlSn0.2C solid solutions, Journal of Advanced Ceramics 6(2017) 90–99

24.   L. Cai, Z. Huang*, W. Hu et al. The synthesis and mechanical properties of high pure Ti2Al(Sn)C solid solution, International Journal of Applied Ceramic Technology 15(2018) 1212-1221

25.   Q. Yu, Z. Huang*, G. Zheng, W. Hu et al. Thermal Shock Behavior of a Novel TiCx–Ni3(Al,Ti)/Ni Functionally Graded Composite, Metals and Materials International 27(2021) 5133–5144

26.   G. Zheng, Z. Huang*, Q.Yu, W.Hu et al. Microstructural and Mechanical Properties of TiCX–Ni3(Al,Ti)/Ni Functionally Graded Composites Fabricated from Ti3AlC2 and Ni Powders, Metals and Materials International 26(2020) 905–913

27.   S. Wo, Z. Huang, L.Cai, W. Hu et al. High strengthening effects and excellent wear resistance of Ti3Al(Si)C2 solid solutions, International Journal of Applied Ceramic Technology 16(2019) 2398– 2408

28. A multiscale elastoplastic tensive behavior of quasi-continuous network structured (Ti3AlC2-Al3Ti)/2024Al composite 庄慰慈(研) 黄振莺;胡文强;周洋;于群(研);吴友波(研);王弘杰(研);李学(研) Materials Today Communications  37 (2023): 107189

29. Microstructure characterization and enhanced mechanical properties of quasi-continuous network structured Ti3AlC2-Al3Ti/2024Al composite 庄慰慈(研) 黄振莺;胡文强;于群(研);王渊博(研);吴友波(研);王弘杰(研);李学(研) Materials Characterization  191 (2022) 112131

30. Study of microstructure and mechanical properties of quasi-continuous network structured (Ti3AlC2-Al3Ti)/2024Al composites based on hot rolling 庄慰慈(研) 黄振莺;胡文强;于群(研);王弘杰(研);李学(研);吴友波(研);周洋 Journal of Alloys and Compounds 968 (2023)12

31. Reaction mechanism and microstructure evolution of superhigh strength in-situ TiC/Ti composite based on Cr2AlC-Ti system 王弘杰(研) 黄振莺;李学(研);于群(研);胡文强;庄慰慈(研);吴友波(研);周洋 Journal of Alloys and Compounds 965 (2023)

32.Effect of γ'-δ precipitates tailored by Ti3AlC2 on Inconel 718 composites: Microstructure evolution, enhanced properties and strengthening mechanism 于群(研) 黄振莺;胡文强;王弘杰(研);李学(研);庄慰慈(研);吴友波(研);周洋 Materials Characterization 204 (2023)

33.A multiscale elastoplastic tensive behavior of quasi-continuous network structured (Ti3AlC2-Al3Ti)/2024Al composite 庄慰慈(研) 黄振莺;胡文强;于群(研);李学(研);王弘杰(研);吴友波(研);周洋 Materials Today Communications 37 (2023)

34.In-situ TiC/Ti composites based on Ti2AlC–Ti system: Reaction process, microstructure, and mechanical properties 王弘杰(研) 黄振莺;李学(研);于群(研);胡文强;庄慰慈(研);吴友波(研);周洋 Ceramics International  50 (2023) 4022-4030



专著/译著

专利

1.   黄振莺,郑光明,翟洪祥,柯燎亮,胡文强,蔡乐平,雷聪,邱星阳,阿利夏,一种原位自生TiCx-Ni3(Al,Ti)/Ni基梯度复合材料及其热压制备方法,授权号:ZL201810823052.7,授权时间:2020年04月17日

2.   黄振莺,李新康,翟洪祥,王渊博,蔡乐平,胡文强,沃少帅,周洋,于文波,雷聪,一种三维连续网络结构Ti3AlC2/Al基复合材料及其无压浸渗制备方法技术,授权号:ZL201710541465.1,授权时间:2019年01月15日

3.   黄振莺王渊博,于群,于文波,胡文强,蔡乐平,焦一丹,翟洪祥,周洋, 一种Ti3AlC2-Al3Ti双相增强Al基复合材料及其热压制备方法, 授权号:ZL201911077604.5,授权时间:2020年12月25日

软件著作权

获奖与荣誉

北京市优秀博士学位论文

北京交通大学优秀博士学位论文

北京交通大学青英II类人才

宝钢优秀学生奖学金

北京交通大学知行奖学金提名奖

国家留学基金委公派留学奖学金

博士生国家奖学金

北京交通大学智瑾专项奖学金

北京市优秀毕业生

北京交通大学优秀毕业生干部

社会兼职

轨道交通新材料产业化技术实验室 省部级CMA检验检测实验室技术负责人

Journal of Alloys and Compounds,Ceramics International ,Chinese Journal of Aeronautics等期刊审稿人