金属材料工程

邱敬文

2021-03-26

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一、基本情况

邱敬文,1984年生,男,副教授,硕士生导师,美国达特茅斯学院联合培养博士,湘潭市企业科技特派专家,中国机械工程学会摩擦学分会第十三届青工委委员,入选2019年江苏省“双创计划”科技副总项目;长期从事粉末冶金钛合金,钛铝合金的摩擦磨损行为,力学性能与表面强化等方面的研究。目前主持国家自然科学基金1项、湖南省自然科学基金1项,指导国家级大学生创新创业训练计划项目1项,湖南省大学生创新实验项目1项;参与国家级和省级科研课题3项。在《Intermetallics》、《Materials Science and Engineering: A》、《Material & Design》、《Wear》、《Materials Characterization》等国内外重要刊物上发表论文20余篇,《Materials Science and Engineering: A》等SCI期刊审稿人。

邮件:Jingwen.qiu@hnust.edu.cn, QQ: 157O12254

二、学习经历

2010/09-2014/06,中南大学粉末冶金研究院,材料学,博士

2011/09-2013/10,Dartmouth College(常春藤联盟大学), 国家公派留学,联合培养博士

2007/09-2010/06,中南大学粉末冶金研究院,材料学,硕士

2002/09-2006/06,中南大学粉末冶金研究院,粉体材料科学与工程,学士

三、工作经历

2019年12月至 今,湖南科技大学材料科学与工程学院,副教授,硕士生导师

2016/06-2019年12月, 湖南科技大学材料科学与工程学院,讲师,硕士生导师

2014/12-2016/06,湖南科技大学机电工程学院,讲师

四、研究方向

1. 高性能钛合金与钛基复合材料制备技术(增材制造与粉末冶金方向)及其表面强化方向

2. TiAl,FeAl金属间化合物力学性能和微观组织研究

3. 金属材料摩擦磨损行为研究

五、研究项目与平台建设

1. 主持国家自然科学基金青年基金项目: 粉末冶金钛合金表面纳米复合强化及摩擦磨损机理研究 (51604112)

2. 主持湖南省自然科学基金青年基金项目:TiAl基金属间化合物表面纳米梯度耐磨层形成机制及其摩擦行为研究(2017JJ3089)

3. 指导地方高校国家级大学生创新创业训练计划项目:放电等离子烧结制备超细晶复合层状纯钛结构材料(201710534013)

4. 主持2019年江苏省科学技术厅“双创计划”科技副总计划(FZ20190778)

5. 承担国家自然科学基金项目:垂直定向散热石墨鳞片/铜复合材料的宏微观结构设计与制备(51704113)

6. 承担湖南省教育厅项目:网状结构MoSi2复合材料的强韧化效应及其高温氧化行为(15A059)

7. 承担湖南省自然科学基金面上项目:基于动力学偏置连续分布T2相扩散障的原位自形成机制及阻挡特性(2018JJ2119)

六、研究成果论文

第一作者及通讯作者:

[1] J. Qiu, Z. Fu, B. Liu, Y. Liu, J. Yan, D. Pan, W. Zhang, I. Baker, Effects of niobium particles on the wear behavior of powder metallurgical γ-TiAl alloy in different environments, Wear (2019), 434–435(SCI, EI检索)

[2] Jingwen Qiu, Canxu Zhou, Bin Liu, Yong Liu, Huizhong Li, Xiaopeng Liang, Xiang Zan,Precipitation behavior of Ti-45Al-3Fe-2Mo-0.5C intermetallics after creep tests at 750℃,Materials Characterization(2019),155,109825 (SCI, EI检索)

[3] J. Qiu, Z. Fu, B. Liu, Y. Liu, J. Yan, D. Pan, W. Zhang, Wear Behavior of P/M High Nb Containing γ-TiAl Alloy in Different Environments, Metals and Materials International, (2019). 25(6), 1564-1573. (SCI, EI检索)

[4] R. Guo, B. Liu*, R. Xu, Y. Cao, J. Qiu*, F. Chen, Z. Yan, Y. Liu, Microstructure and mechanical properties of powder metallurgy high temperature titanium alloy with high Si content, Materials Science and Engineering: A, 777 (2020) 138993. (SCI, EI检索)

[5] X. Lu, J. Li*, X. Chen, J. Qiu*, Y. Wang, B. Liu, Y. Liu, M. Rashad, F. Pan, Mechanical, tribological and electrochemical corrosion properties of in-situ synthesized Al2O3/TiAl composites, Intermetallics, 120 (2020) 106758. (SCI, EI检索)

[6] W.-d. Zhang, Z. Wu, Y. Liu, H. Bei, B. Liu, J. Qiu*, Plastic deformation mechanism of Ti–Nb–Ta–Zr–O alloy at cryogenic temperatures, Materials Science and Engineering: A, (2019) 138293.(SCI, EI检索)

[7] Wei-dong Zhang, Jun-ye Ren, Yong Liu, Jingwen Qiu*. Microstructure and mechanical properties of cold drawn Ti-Nb-Ta-Zr-O wires for biomedical applications, Metals and Materials International, (2019),(SCI, EI检索)

[8] Rui Zhou, Mou Li, Jingwen Qiu*, Sihui Ouyang, Di Pan, Chengshang Zhou, Yong Liu Effect of Al and Sc on the mechanical behavior of FeCoNi multi-element alloys, Transactions of Nonferrous Metals Society of China, (2019), 29(10), 2109−2116 SCI, EI检索)

[9] Li Liangsheng, Qiu Jingwen *, Guo Wenmin, Liu Bin, Zhou Rui, Li Zheng, Liu Yong, Microstructure and mechanical property evolution during annealing of a cold-rolled metastable powder metallurgy high entropy alloy, Entropy, (2019), 21,833 (SCI, EI检索)

[10] J. W. Qiu, D. Pan, Y. Liu, I. Baker and W. D. Zhang, Effects of environment on the wear behavior of p/m Ti-47Al-2Cr-0.2Mo, Key Engineering Materials 770 ,2018, 106-115. (EI)

[11] J. Qiu,Y. Liu,F. Meng,I. Baker,P.R. Munroe,Effects of environment on dry sliding wear of powder metallurgical Ti-47Al-2Cr-2Nb-0.2 W,Intermetallics,2014,53:10-19. (SCI, EI检索)

[12] J. Qiu,I. Baker,F.E. Kennedy,Y. Liu,P.R. Munroe,The effects of stoichiometry on the dry sliding wear of FeAl,Intermetallics,2013,40(0):19-27. (SCI, EI检索)

[13] J. Qiu, Y. Liu, B. Liu, B. Wang, E. Ryba, H. Tang, Optimizing the hot-forging process parameters for connecting rods made of PM titanium alloy, Journal of Materials Science, 47 (2012) 3837-3848. (SCI, EI检索)

[14] J.W. Qiu, Y. Liu, Y.B. Liu, B. Liu, B. Wang, E. Ryba, H.P. Tang, Microstructures and mechanical properties of titanium alloy connecting rod made by powder forging process, Materials & Design, 33 (2012) 213-219. (SCI, EI检索)

[15] 邱敬文, 潘迪, 舒逸, 颜建辉, 段中元, 肖祥友. 表面机械研磨强化 γ-TiAl 合金摩擦磨损行为研究[J]. 材料科学, 2018, 8(8): 878-889

[16] 邱敬文, 付正帆, 潘迪, 舒逸, 颜建辉, 段中元, 李伟华. 高熵合金颗粒增强钛合金复合材料摩擦磨损行为研究[J]. 材料科学, 2018, 8(10): 1007-1015

[17] 邱敬文,刘咏,刘延斌, 等.粉末冶金Ti-1.5Fe-2.25Mo钛合金的热变形本构方程[J].粉末冶金材料科学与工程,2010,15(5):439-444.

其他作者:

[1] J. Yan, K Li, Y. Wang, J. Qiu. Microstructure and Mechanical Properties of WMoNbCrTi HEAs Sintered from the Powders Milled for Different Durations. JOM 71, (2019). 2489–2497(SCI, EI检索)

[2] H. Hu, Y. Guo, J. Yan, J. Qiu, Y. Wang, Dry sliding wear behavior of MoSi2-Mo5Si3-Mo5SiB2 composite at different temperatures and loads, Wear, 428-429 (2019) 237-245. (SCI, EI检索)

[3] L. Han, K. Li, C. Qian, J. Qiu, C. Zhou, Y. Liu, Wear behavior of light-weight and high strength Fe-Mn-Ni-Al matrix self-lubricating steels, Journal of Materials Science & Technology, 35 (2018) 623-630. (SCI, EI检索)

[4] J. Yan, J. Huang, K. Li, P. Zhou, Y. Wang, J. Qiu, Effect of Boron Content on Microstructure, Mechanical Properties, and Oxidation Resistance of Mo-Si-B Composites, Journal of Materials Engineering and Performance, 27 (2018) 6218-6226. (SCI, EI检索)

[5] Yan, J.; Guo, Y.; Wang, Y.; Zhou, P.; Qiu, J. A Comparison Study on Wear Behaviors of Mo and Al2O3-Mo Coatings from RT to 300 °C. Lubricants (2018), 6, 48. (EI检索)

[6] Y. Jianhui, W. Yi, Z. Peng, Q. Jingwen, W. Yueming, Microstructures and Room Temperature Mechanical Properties of Mo-12Si-8.5B-8Cr Alloy, Transactions of the Indian Institute of Metals, (2017). (SCI, EI检索)

[7] W.-d. Zhang, Y. Liu, H. Wu, X.-d. Lan, J. Qiu, T. Hu, H.-p. Tang, Room temperature creep behavior of Ti–Nb–Ta–Zr–O alloy, Materials Characterization, 118 (2016) 29-36. (SCI, EI检索)

[8] MENG F, QIU J, BAKER I, et al. The effects of annealing on the microstructure and mechanical properties of Fe28Ni18Mn33Al21 [J]. Journal of Materials Science, 2015, 50 (23): 7821-7834. (SCI, EI检索)

[9] MENG F, QIU J, BAKER I. Effect of Al content on the microstructure and mechanical behavior of two-phase FeNiMnAl alloys [J]. Journal of Materials Science, 2014, 49 (5): 1973-1983. (SCI, EI检索)

[10] MENG F, QIU J, BAKER I. The effects of chromium on the microstructure and tensile behavior of Fe30Ni20Mn35Al15 [J]. Materials Science and Engineering: A, 2013, 586 (0): 45-52. (SCI, EI检索)

[11] Liu Yanbin, Liu Yong, Wang Bin, Qiu Jingwen, Liu Bin, Tang Huiping Microstructure Evolution and Mechanical Properties of a Powder Metallurgical Titanium Alloy with Yttrium Addition[J]. Materials and Manufacturing Processes, 2010, 25(8): 735-739 (SCI, EI检索)

[12] 王斌, 刘咏, 刘延斌, 汤慧萍, 邱敬文, 王玉林 稀土La对粉末冶金钛合金组织和力学性能的影响[J].粉末冶金材料科学与工程,2011,16(1):136-142.(EI检索)

七、国家发明专利

[1] 刘咏,刘延彬,汤慧萍,邱敬文,王斌,王玉林;一种含稀土氧化物强化相钛合金的粉末冶金制备方法,专利号:200910308457.8

[2] 刘军,张伟,邱敬文,潘迪,张明阳;一种汽车制动系统用粉末冶金钛基复合材料及其制备方法,专利号:201810524644.9

[3] Ian Baker, Fanling Meng, Jingwen Qiu, Fe-Ni-Mn-Al-Cr Alloys and Methods for Production Thereof,美国专利, 专利号:US 20140286821 A1