佟立波

佟立波,男,博士,西安建築科技大學冶金工程學院教授,博士生導師。

基本介紹

  • 中文名:佟立波
  • 畢業院校:哈爾濱工業大學
  • 學位/學歷:博士
  • 職業:教師
  • 專業方向:金屬材料加工成型、強韌化與表面塗層技術
  • 任職院校:西安建築科技大學冶金工程學院
  • 職稱:教授
研究方向,個人經歷,教育背景,工作經歷,學術成果,科研項目,著作期刊,

研究方向

金屬材料加工成型、強韌化與表面塗層技術

個人經歷

教育背景

1. 2007-2011年:哈爾濱工業大學,材料學,工學博士;
2. 2008-2009年:日本長岡技術科學大學,材料學,聯培博士;
3. 2005-2007:吉林大學,材料物理與化學,工學碩士;
4. 1999-2003吉林大學,材料物理,工學學士。

工作經歷

1. 2018-至今:西安建築科技大學,教授、博導;
2. 2014-2018:中國科學院長春套用化學研究所,副研究員;
3. 2011-2014:中國科學院長春套用化學研究所 ,助理研究員

學術成果

科研項目

1. 國家自然科學基金-面上項目,鎂合金表面石墨烯塗層的構築機制及耐蝕/耐磨一體化研究,項目負責人
2. 國家自然科學基金-青年基金,稀土/鹼土元素在Mg-Zn合金中的協同合金化效應及其強化機制研究,項目負責人
3. 中國科學院裝備儀器功能開發項目,稀土鎂合金變形加工/耐蝕處理一體化設備功能開發,項目負責人
4. 吉林省國際科技合作項目,鎂合金表面功能化石墨烯塗層的設計及耐蝕/耐磨一體化機理研究,項目負責人
5. 吉林省自然科學基金,低成本高性能稀土鎂合金的後軋制變形行為及強化機理研究,項目負責人
6. 吉林省青年科研基金,稀土最佳化Mg-Zn-Ca合金的組織調控與強化機制研究,項目負責人
7. 國家科技支撐計畫,新型電解槽設計及高性能鎂合金研發與套用-高性能稀土鎂合金汽車部件的輕量化技術開發,子課題專題負責人
8. 中國科學院國防科技創新重點部署項目,高性能稀土鎂合金在XXX結構件上的套用,課題骨幹
9. 中國科學院西部行動計畫項目,以含水氯化物為原料電解製備鎂稀土合金工程技術研究與合金套用-稀土鎂合金在汽車、高鐵輕量化領域中的套用技術開發,課題骨幹
10. 青海省科技計畫項目,鎂-鋅系中間合金製備新技術及其套用合金開發,課題骨幹

著作期刊

[1] J.H. Chu, L.B. Tong*, M. Wen, Z.H. Jiang, K.S. Wang*, H.J. Zhang, Graphene oxide film as a protective barrier for Mg alloy: Worse or better is dependent on a chemical reduction process, Carbon(JCR一區TOP IF=7.446)
[2] J.H. Chu, L.B. Tong*, J.B. Zhang, S. Kamado, Z.H. Jiang*, H.J. Zhang, G.X. Sun, Bio-inspired graphene-based coatings on Mg alloy surfaces and their integrations of anti-corrosive/wearable performances, Carbon(JCR一區TOP IF=7.446)
[3] J.H. Chu, L.B. Tong*, Z.H. Jiang, D.N. Zou, Q.J. Wang, S.F. Liu, H.J. Zhang*, A comparison study of Ce/La and Ca microalloying on the bio-corrosion behaviors of extruded Mg-Zn alloys, J. Magn. Alloys, in press (2019). (IF=4.523)
[4] L.B. Tong*, J.H. Chu, Z.H. Jiang, S. Kamado, M.Y. Zheng*, Ultra-fine grained Mg-Zn-Ca-Mn alloy with simultaneously improved strength and ductility processed by equal channel angular pressing, J. Alloys Compd. (JCR一區TOP IF=4.175)
[5] J.B. Zhang, L.B. Tong*, C. Xu, Z.H. Jiang*, L.R. Cheng, S. Kamado, H.J. Zhang. Influence of Ca-Ce/La synergistic alloying on the microstructure and mechanical properties of extruded Mg–Zn alloy. Mater. Sci. Eng. A (JCR二區TOP IF=4.081)
[6] C.J. Che, L.R. Cheng*, L.B. Tong*, Z.Y. Cai, H.J. Zhang. The effect of Gd and Zn additions on microstructures and mechanical properties of Mg-4Sm-3Nd-Zr alloy. J. Alloys Compd.(JCR一區TOP IF=4.175)
[7] L.B. Tong, J.B. Zhang, C. Xu, X. Wang, S.Y. Song, Z.H. Jiang, S. Kamado, L.R. Cheng*, H.J. Zhang*. Enhanced corrosion and wear resistances by graphene oxide coating on the surface of Mg-Zn-Ca alloy. Carbon (JCR一區TOP IF=7.446)
[8] L.B. Tong, Q.X. Zhang, Z.H. Jiang, J.B. Zhang, J. Meng, L.R. Cheng*, H.J. Zhang*. Microstructures, mechanical properties and corrosion resistances of extruded Mg-Zn-Ca-xCe/La alloys. J. Mech. Behav. Biomed. (JCR二區TOP IF=3.239)
[9] L.B. Tong, J.B. Zhang, Q.X. Zhang, Z.H. Jiang, C. Xu, S. Kamado, D.P. Zhang, J. Meng, L.R. Cheng*, H.J. Zhang*. Effect of warm rolling on the microstructure, texture and mechanical properties of extruded Mg–Zn–Ca–Ce/La alloy. Mater. Charact. (JCR二區TOP IF=3.22)
[10] L.B. Tong, Q.X. Zhang, Z.H. Jiang, J. Meng, H.J. Zhang*. Enhanced mechanical properties of extruded Mg-Y-Zn alloy fabricated via low-strain rolling. Mater. Sci. Eng. A(JCR二區TOP IF=4.081)
[11] L.B. Tong, M.Y. Zheng, L.R. Cheng, D.P. Zhang, S. Kamado, J. Meng, H.J. Zhang*. Influence of deformation rate on microstructure, texture and mechanical properties of indirect-extruded Mg–Zn–Ca alloy. Mater. Charact. (JCR二區TOP IF=3.22)
[12] L.B. Tong, M.Y. Zheng, S. Kamado, D.P. Zhang, J. Meng, L.R. Cheng*, H.J. Zhang*. Reducing the tension-compression yield asymmetry of extruded Mg–Zn–Ca alloy via equal channel angular pressing. J. Magn. Alloys (IF=4.523)
[13] Q.X. Zhang, L.B. Tong, L.R. Cheng, Z.H. Jiang, J. Meng, H.J. Zhang. Effect of Ce/La microalloying on microstructural evolution of Mg-Zn-Ca alloy during solution treatment. J. Rare Earth (JCR三區IF=2.846)
[14] L.B. Tong, X. Li, D.P. Zhang, L.R. Cheng, J. Meng, H.J. Zhang*. Dynamic recrystallization and texture evolution of Mg-Y-Zn alloy during hot extrusion process. Mater. Charact. (JCR二區TOP IF=3.22)
[15] L.B. Tong, X.H. Li, H.J. Zhang*. Effect of long period stacking ordered phase on the microstructure, texture and mechanical properties of extruded Mg–Y–Zn alloy. Mater. Sci. Eng. A(JCR二區TOP IF=4.081)
[16] L.B. Tong, M.Y. Zheng, L.R. Cheng, S. Kamado, H.J. Zhang*. Effect of extrusion ratio on microstructure, texture and mechanical properties of indirectly extruded Mg–Zn–Ca alloy. Mater. Sci. Eng. A (JCR二區TOP IF=4.081)
[17] L.B. Tong, M.Y. Zheng, D.P. Zhang, W.M. Gan, H.G. Brokmeier, J. Meng, H.J. Zhang*. Compressive deformation behavior of Mg–Zn–Ca alloy at elevated temperature. Mater. Sci. Eng. A(JCR二區TOP IF=4.081)
[18] L.B. Tong, M.Y. Zheng*, P. Song, X.S. Hu, K. Wu, S. Kamado. Improvement of strength and ductility of Mg-Zn-Ca-Mn alloy by equal channel angular pressing. Magnesium Technology (EI)
[19] L.B. Tong, M.Y. Zheng*, S.W. Xu, S. Kamado, Y.Z. Du, X.S. Hu, K. Wu, W.M. Gan, H.G. Brokmeier, G.J. Wang, X.Y. Lv. Effect of Mn addition on microstructure, texture and mechanical properties of Mg-Zn-Ca alloy. Mater. Sci. Eng. A(JCR二區TOP IF=4.081)
[20] L.B. Tong, M.Y. Zheng*, X.S. Hu, K. Wu, S.W. Xu, S. Kamado, Y. Kojima. Influence of ECAP routes on microstructure and mechanical properties of Mg-Zn-Ca alloy. Mater. Sci. Eng. A(JCR二區TOP IF=4.081)
[21] L.B. Tong, M.Y. Zheng*, S.W. Xu, X.S. Hu, K. Wu, S. Kamado, G.J. Wang, X.Y. Lv. Room–temperature compressive deformation behavior of Mg-Zn-Ca alloy processed by equal channel angular pressing. Mater. Sci. Eng. A (JCR二區TOP IF=4.081)
[22] L.B. Tong, Y.H. Li*, F.L. Meng, H.W. Tian, W.T. Zheng, Y.M. Wang. Investigation on mechanical properties of sputtered TiNi thin films. J. Alloys Compd. (JCR一區TOP IF=4.175)
[23] M.Y. Zheng*, L.B. Tong, S.W. Xu, X.S. Hu, K. Wu, S. Kamado. Microstructure and Mechanical Properties of Extruded Mg-Zn-Ca Alloy. Mater. Sci. Forum (導師為第一作者, EI)
[24] L.B. Tong*, M.Y. Zheng, H. Chang, X.S. Hu, K. Wu, S.W. Xu, S. Kamado, Y. Kojima. Microstructure and mechanical properties of Mg–Zn–Ca alloy processed by equal channel angular pressing. Mater. Sci. Eng. A (JCR二區TOP IF=4.081)
[25] M.Y. Zheng*, G.D Fan, L.B. Tong, X.S. Hu, K. Wu.Damping behavior and mechanical properties of Mg-Cu-Mn alloy processed by equal channel angular pressing. Trans. Nonferrous Met. Soc. China (JCR三區IF=1.795)
[26] H. Chang, M.Y. Zheng*, K. Wu, W.M. Gan, L.B. Tong, H.G. Brokmeier. Microstructure and mechanical properties of the accumulative roll bonded (ARBed) pure magnesium sheet. Mater. Sci. Eng. A(JCR二區TOP IF=4.081)
[27] Y.Q. Zhou, D.N. Zou*, Y. Pang, T.G. Wei, W. Zhang, Y.B. Zhang, L.B. Tong*, X. Lv, W.W. Chen, Comparative study on the oxidation behavior of austenitic and ferritic heat-resistant stainless steels at high temperatures, JOM (JCR二區TOP IF=2.305)
[28] H. Chang, X.S. Hu*, X.J. Wang, J.F. Du, L.B. Tong, Aging behavior of the extruded SiCp-reinforced AZ91 Mg alloy composite, J. Mater. Res.(JCR四區TOP IF=1.982)
[29] Q.J. Wang*, D. Liu, L.B. Tong*, Y. Zhou, W. Wang, H.X. Zhou, R.X. Fan, Enhanced Stress Corrosion Cracking Resistance of Ultrafine-Grained Cu-Cr-Zr Alloy Fabricated via Equal-Channel Angular Pressing, Metals(JCR三區TOP IF=2.259)
[30] 張洪傑, 佟立波, 文懋, 邱鑫, 張慶鑫, 孟健. 一種高性能耐蝕稀土鎂合金的製備方法(PI為第一發明人)
[31] 張洪傑, 佟立波, 文懋, 張慶鑫, 邱鑫, 孟健. 一種稀土鎂合金及其製備方法(PI為第一發明人)
[32] 張洪傑, 佟立波, 張慶鑫, 邱鑫, 田政, 程麗任, 孟健. 超細晶稀土鎂合金的製備方法(PI為第一發明人)
[33] 張洪傑, 佟立波, 張佳斌, 江忠浩, 邱鑫, 張德平, 孟健. 一種電視機掛架(PI為第一發明人)
[34] 鄭明毅, 佟立波, 常海, 吳昆, 超細晶鎂/鈦層狀複合板材的製備方法(導師為第一發明人)
[35] 張洪傑, 程麗任, 佟立波, 邱鑫, 一種用於鎂合金半連續鑄造的分流裝置及鑄造系統
[36] 程麗任, 張洪傑, 孟健, 佟立波, 一種攪拌摩擦裝置
[37] 孟健, 邱鑫, 牛曉東, 楊強, 佟立波, 張洪傑. 高延展性稀土鎂合金

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