麻彥龍,教授,博士生導師,重慶英才創新領軍人才,重慶市巴渝學者,重慶市學術技術帶頭人後備人選,重慶表面工程技術學會副理事長,重慶市腐蝕與防護學會常務理事,“先進輕合金材料腐蝕防護與表面工程”重慶市高校創新研究群體負責人。主要從事金屬腐蝕防護與表面工程相關理論與技術研究,近年來主持國家自然科學基金1項、國防科技173計畫1項、重慶市自然科學基金4項;在《Corrosion Science》、《Electrochimica Acta》、《Scripta Materialia》等權威期刊發表論文80餘篇;獲國家發明專利授權4項,獲重慶市科技進步一等獎(排名第五)、重慶市產學研創新成果一等獎(排名第一)各1項。入選全球前2%頂尖科學家2022榜單(World's Top 2% Scientists 2022)。
基本介紹
- 中文名:麻彥龍
- 國籍:中國
- 民族:漢族
- 出生地:甘肅省慶陽市
- 畢業院校:英國曼徹斯特大學
- 職業:高校教師
個人經歷,研究方向,承擔的主要項目,研究成果,社會兼職,獎勵榮譽,
個人經歷
1997.09-2001.07,獲重慶大學材料學專業學士學位;
2001.09-2004.07,獲重慶大學材料學專業碩士學位;
2008.01-2011.01,獲英國曼徹斯特大學金屬材料博士學位;
2011.01-2012.08,英國曼徹斯特大學博士後;
2012.08年至今重慶理工大學材料科學與工程學院任教。
研究方向
金屬腐蝕行為與機理;高性能防護塗層材料與技術(陽極氧化、硬質陽極氧化、微弧氧化、化學轉化膜、離子鍍膜);雷射表面改性(高熵合金塗層製備等);鎂基能源材料。
承擔的主要項目
1. 國家自然科學基金青年基金,基於晶體學取向的非均勻塑性變形對新型鋁鋰合金局部腐蝕行為的影響,2014-2016
2. 重慶市高校創新研究群體項目,先進輕合金材料腐蝕防護與表面工程,2020-2023
3. 重慶英才計畫“包乾制”項目,高性能鎂合金腐蝕性能調控與耐蝕機理研究,2021-2023
4. 國防科技173計畫,7050-T7451高強耐蝕鋁合金XXXX,2021-2024
5. 重慶市自然科學基金面上項目,鋁合金陽極氧化膜三價鉻封孔微觀機制及封孔層耐蝕機理研究,2022-2025
研究成果
1. 代表性學術論文
[1] Guo-qiang Xi, Yu Mou, Yan-long Ma, Xu-han Zhao, Ju Xiong, Kai Ma, Jing-feng Wang, Effect of volume fraction of 18R-LPSO phase on corrosion resistance of Mg−Zn−Y alloys, Transactions of Nonferrous Metals Society of China, 33 (2023) 454-466
[2] Guoqiang Xi,Xuhan Zhao, Yanlong Ma, Yu Mou, Ju Xiong, Kai Ma, Jingfeng Wang, Comparative study on corrosion behavior and mechanism of as-cast Mg-Zn-Y and Mg-Zn-Gd alloys, Acta Metallurgica Sinica (English Letters) 36 (2023)310–322
[3] Bingyuan Yang, Yanlong Ma, Haisheng Wu, Zhaoyuan Liang, Yu Li, Liang Wu, Lidong Sun, Improving corrosion resistance of anodized AA2099-T83 Al-Cu-Li alloy through post-treatment in a lithium nitrate-based solution, Surface & Coatings Technology 441 (2022) 128501
[4] Jingyi Zou, Zhongwei Wang, Yanlong Ma, Yu Yan, Lijie Qiao, Role of gradient nano-structured surface in collapsed pitting corrosion on AISI 316L stainless steel during tribocorrosion, Corrosion Science 197 (2022) 110043
[5] Qiqi Li, Fei Guo, Linjiang Chai, Yanlong Ma, Luyao Jiang, Qiuyu Chen, Chengquan Zhang, Haiding Liu, Dingfei Zhang, Bin Jiang, Redistribution and refinement of the dendrites in a Mg-Y alloy by laser surface remelting and its influence on mechanical properties, Materials Science & Engineering A 848 (2022) 143362
[6] Kang Xiang, Linjiang Chai, Chengquan Zhang, Haotian Guan, Yueyuan Wang, Yanlong Ma, Qi Sun, Yuqiong Li, Investigation of microstructure and wear resistance of laser-clad CoCrNiTi and CrFeNiTi medium-entropy alloy coatings on Ti sheet,Optics & Laser Technology 145 (2022) 107518
[7] B.Yang, Y.Ma, Z.Liang, Y.Liao, Z.Wang, P.Zhu, A superhydrophobic and corrosion resistant layered double hydroxides coating on AA2099-T83 Al-Cu-Li alloy, Surface and Coatings Technology 405(2021) 126629
[8] Y. Ma, K. Li, X. Zhou, H. Wu, P. Zhu, B. Yang, Y. Liao, S. He, Effect of Barrier Layer on Corrosion Resistance of Porous-Type Anodic Films Formed on AA2055 Al–Cu–Li Alloy and Pure Aluminum, Journal of The Electrochemical Society, 2020 167 041508
[9] P. Zhu, Y. Ma, K. Li, Z. Liang, B. Yang, W. Huang, Y. Liao, Sealing of anodized AA2099-T83 Al-Cu-Li alloy with layered double hydroxides for high corrosion resistance at reduced anodic film thickness, Surface & Coatings Technology 394 (2020) 125852
[10] B.Yang, Y.Ma, Z.Liang, Y.Liao, Z.Wang, P.Zhu, A superhydrophobic and corrosion resistant layered double hydroxides coating on AA2099-T83 Al-Cu-Li alloy, Surface and Coatings Technology,Available online 7 November 2020, 126629
[11] Yan‑Long Ma, Hui‑Bin Xu, Zhao‑Yuan Liang, Lei Liu, Corrosion Resistance of Friction Stir Welded Al–Cu–Li Alloy AA2099‑T8, Acta Metallurgica Sinica (English Letters) (2020) 33:127-134
[12] Y. Ma, H. Wu, W. Huang, X. Zhou, K. Li, Y. Liao, Z. Wang, Z. Liang, L. Liu, Corrosion behavior of anodized Al-Cu-Li alloy: The role of intermetallic particle-introduced film defects, Corrosion Science, 2019, 158:108110
[13] Y. Ma, X. Zhou, K. Li, S. Pawar, Y. Liao, Z. Jin, Z. Wang, H. Wu, Z. Liang, L. Liu, Corrosion and Anodizing Behavior of T1 (Al2CuLi) Precipitates in Al-Cu-Li Alloy, Journal of The Electrochemical Society, 2019, 166: C296-C303
[14] Z. Liang, Y. Ma, K. Li, Y. Liao, B. Yang, L. Liu, P. Zhu, Formation of layered double hydroxides film on AA2099-T83 Al-Cu-Li alloy and its effect on corrosion resistance, Surface & Coatings Technology, 2019, 378, 124967
[15] H. Wu, Y. Ma, W. Huang, X. Zhou,K. Li, Y. Liao, Wang, Z. Liang, L. Liu,Effect of iron-Containing intermetallic particles on film structure and corrosion resistance of anodized AA2099 Alloy, Journal of The Electrochemical Society, 2018, 165 (9) C573-C581
[16] S. He, Y. Ma, H. Ye et al., Ceramic oxide coating formed on beryllium by micro-arc oxidation, Corrosion Science,122(1), 108-117, 2017.
[17] Y. Ma,X. Zhou,Y. Liao,Y. Yi,H. Wu,Z. Wang,W. Huang,Localised corrosion in AA 2099-T83 aluminium-lithium alloy: The role of grain orientation, Corrosion Science,107(6), 41-48, 2016.
[18] Y. Ma, X. Zhou, Y. Liao, X. Chen, C. Zhang, H. Wu, Z. Wang, W. Huang, Effect of anodising parameters on film morphology and corrosion resistance of AA2099 aluminium-lithium alloy, Journal of The Electrochemical Society,163 (7), C369- C376, 2016.
[19] Y. Ma, X. Chen, X. Zhou, Y. Yi, Y. Liao, W. Huang, Microstructural origin of localized corrosion in anodized AA2099-T8 aluminium-lithium alloy,Surface and Interface Analysis, 48(8):739-744,2016.
[20] Y. Ma, X. Zhou, W. Huang, G.E. Thompson, X. Zhang, C. Luo, Z. Sun, Localized corrosion in AA2099-T8 aluminum-lithium alloy: the role of intermetallic particles, Materials Chemistry and Physics, 161 (7), 201-210, 2015.
[21] Y. Ma, X. Zhou, J. Wang, G.E. Thompson, W. Huang, J-O. Nilsson, M. Gustavsson, A. Crispin, Discoloration of anodized AA6063 aluminum alloy, Journal of The Electrochemical Society, 161(6), 312-320, 2014.
[22] Y. Ma, X. Zhou, G.E. Thompson, X. Zhang, C Luo, M. Curioni, H. Liu, Microstructural modification arising from alkaline etching and its effect on anodizing behavior of Al-Li-Cu alloy, Journal of The Electrochemical Society, 160 (3), C111-C118, 2013.
[23] Y. Ma, X. Zhou, G.E. Thompson, P. Skeldon, Surface texture formed on AA2099 Al–Li–Cu alloy during alkaline etching, Corrosion Science, 66 (1), 292–299, 2013.
[24] Y. Ma, X. Zhou, G.E. Thompson, J-O. Nilsson, M. Gustavsson, A. Crispin. Origin of streaks on anodized aluminium alloy extrusions, Transaction of Institute of Metal Finishing, 91, 11-16, 2013.
[25] Y. Ma, X. Zhou, G.E. Thompson, J-O. Nilsson, M. Gustavsson, A. Crispin. Anodizing of AA6063 aluminium alloy profiles: Generation of dark appearance, Surface and Interface Analysis, 45(10)1479–1484, 2013
[26] Y. Ma, X. Zhou, G.E. Thompson, M. Curioni, P. Skeldon, Anodic film growth on AA2099-T8, Electrochimica Acta, 80 (10), 148-159, 2012.
[27] Y. Ma, X. Zhou, G.E. Thompson, M. Curioni, T. Hashimoto, P. Skeldon, E. Koroleva, Single-step fabrication of metal nanoparticle loaded mesoporous alumina through anodizing of a commercial aluminum alloy, Electrochemical and Solid-state Letters, 15 (1), E4-E6, 2012.
[28] Y. Ma, X. Zhou, G.E. Thompson, M. Curioni, X. Zhong, E. Koroleva, P. Skeldon, P. Thomson, M. Fowles, Discontinuities in the porous anodic film formed on AA2099-T8 aluminium alloy, Corrosion Science, Vol. 53(12), 4141-4151, 2011.
[29] Y. Ma, X. Zhou, G.E. Thompson, M. Curioni, T. Hashimoto, P. Skeldon, P. Thomson, M. Fowles, Anodic film formation on AA2099-T8 aluminium alloy in tartaric-sulphuric acid, Journal of The Electrochemical Society,158 (2), C17-C22, 2011.
[30] Y. Ma, X. Zhou, G.E. Thompson, T. Hashimoto, P. Thomson, M. Fowles, Distribution of intermetallics in an AA2099-T8 aluminium alloy extrusion, Materials Chemistry and Physics, 126 (1), 46-53, 2011.
2. 授權發明專利
[1] 一種鉑納米顆粒負載介孔氧化鋁原位製備方法,ZL2014108267769
[2] 一種基於AI-Cu-Li合金的微米尺度Ti相的原位製備方法,ZL2017111707594
[3] 一種Al-Cu-Li合金陽極氧化膜的常溫封閉方法,ZL201911127520.8
[4] 一種Al-Cu-Li合金表面雙羥基金屬氧化物薄膜的原位製備方法,ZL201911128435.3
3. 學術報告
[1] Keynote,Corrosion behavior and anodizing surface treatment of advanced aluminum-lithium alloys,2022 International Conference on Corrosion Protection and Application, Chendu, China,2022
[2] 邀請報告,新型鋁鋰合金的腐蝕行為與陽極氧化表面處理技術研究,第十一屆全國腐蝕與防護大會,中國瀋陽,2021
[3] 邀請報告,航空航天用新型鋁鋰合金的腐蝕與陽極氧化表面處理, 第六屆裝備環境工程發展論壇,中國重慶,2020
[4] 邀請報告,非均勻微觀組織對AA2099鋁鋰合金局部腐蝕行為的影響,2015新材料國際發展趨勢高層論壇,上海,2015
[5] 大會報告,非均勻微觀組織對AA2099鋁鋰合金局部腐蝕行為的影響,第七屆鋁表面科學與技術論壇,葡萄牙馬德拉,2015
社會兼職
[1] 重慶市表面工程技術學會,副理事長
[2] 重慶市表面工程技術協會,學術委員會副主任
[3] 重慶市腐蝕與防護學會,常務理事
[4] 重慶市產學研合作促進會,常務理事
獎勵榮譽
[1] 2014年入選重慶市教育委員會“巴渝學者”特聘教授
[2] 2015年獲重慶市科技進步一等獎(排名第五)
[3] 2019年入選重慶英才創新創業領軍人才
[4] 2020年入選重慶市學術技術帶頭人後備人選
[5] 2020年重慶市產學研創新成果獎一等獎(排名第一)
[6] 2021年獲川渝產學研創新成果獎一等獎(排名第三)
[7] 2022年獲中國有色金屬學會教育教學成果獎一等獎(排名第三)
