李烨飞-西安交通大学材料科学与工程学院
姓 名: 李烨飞
职称: 副教授
所在院系: 材料加工工程
联系电话: 029-82668606
个人主页:
E-MAIL: liyefei@mail.xjtu.edu.cn
专业方向: 铸造及耐磨材料、复合材料、第一性原理计算
个人详情

研究领域或方向

先进耐磨材料制备与高性能化研究

陶瓷颗粒增强铁基复合材料研究

复合材料界面第一性原理研究

新型MAX相的理论研究

MAX/Cu基复合材料制备研究

工作经历

2011.12-2016.12  西安交通大学 讲师

2017.1-至今 西安交通大学 副教授

科研项目

1. ZTA陶瓷颗粒/铁基复合材料界面调控及磨损行为研究,国家自然科学基金(51501139),项目起止年月: 201601月至 2018 12月,资助金额:26.4万,主持人

2. 陕西省自然科学基金(2013JQ6009),时间:20141~201612月,主持人;

3. 中国博士后科学基金面上资助,时间:20141~201512月,主持人;

4. 高等学校博士学科点专项科研基金资助课题(20130201120002),时间:20141~201612月,主持人;

5. 中央高校基本科研业务费专项资金,时间:2013 1 ~ 2015 12 月,主持人;

6. 广东省战略新兴产业核心技术攻关项目(2012A090100018),时间:201211~201510月,参加人;

7. 国家863计划重点(2013AA031203),时间:20131~201512月,参加人。

8. 广东省科技计划项目,应用型科技研发专项(2015B090926009),时间201511-201810月,参加人;

9. 广东省科技计划项目,增材制造(3D打印)技术专项(2015B010122003),时间:20156-20178月,参加人。

学术成果

1. 5年发表论文:

[1] Y.F. Li, Bing Xiao*, Liang Sun, X.Z. Wang, Yimin Gao, Yiran Wang, Phonon spectrum, IR and Raman modes, thermal expansion tensor and thermal physical properties of M2TiAlC2 (M=Cr, Mo, W), Computational Materials Science, 2017, 134: 67.

[2] Y.F. Li, Bing Xiao, Liang Sun, Yimin Gao, Shengqiang Ma, Dawei Yi. Pressure Dependence of Thermal Physical Properties of A-type R2O3 (R=Y, La): A First-principles Study, Journal of Physics and Chemistry of Solids, 2017, 103: 49-58.

[3] Y.F. Li, Liang Sun, Yangzhen Liu, Pressure dependence of physical properties of (W2/3Ti1/3)3AlC2 and its counterpart W3AlC2 by first principles calculations, Modern Physics Letters B, 2017, 31 (34): 1750326.  

[4] Y.F. Li, B. Xiao, L. Sun, Y.M. Gao, Y.H. Cheng, Phonon optics, thermal expansion tensor, thermodynamic and chemical bonding properties of Al4SiC4 and Al4Si2C5: a first-principles study. RSC Advance, 2016, 6: 43191.

[5] Y.F. Li, B. Xiao, L. Sun, Y.M. Gao, Y.H. Cheng, A theoretical study of dielectric tensor, born effective charges, LO-TO splitting and infrared response of Al4SiC4 and Al4Si2C5. Journal of Alloys and Compounds, 2016, 692 (25): 713-719.

[6] Y.F. Li, B. Xiao, Y.M. Gao, Y.H. Cheng, Theoretical study of anisotropic structural, electronic, mechanical and thermodynamic properties of rare-earth (R=Y, La) oxysulfides. Computational Materials Science, 2016, 125: 154-167.

[7] Y.F. Li, Y.C. Ding, B. Xiao, Y.H. Cheng, Anisotropic electrical and lattice transport properties of ordered quaternary phases Cr2TiAlC2 and Mo2TiAlC2: A first principles study, Physics Letters A, 2016, 380 (44): 3748-3755.

[8] Yefei Li, Shuli Tang, Yimin Gao, Shengqiang Ma, Qiaoling Zheng, Yonghong Cheng, Mechanical and thermodynamic properites of intermetallic compounds in the Ni-Ti system, International Journal of Modern Physics B, 2017, 31: 1750161.

[9] Y.F. Li, K Matsuura, M Ohno, Yimin Gao, J Yu. Combustion synthesis of TiB2 based hard material cemented by Fe-Al intermetallics [J]. Powder Metallurgy, 55 (2): 162-167, 2012.

[10] Y.F. Li, G.L.Wang, Y.M. Gao, S.Q. Ma, S.L. Tang. First-principles study on the adhesion, electronic structure, and bonding of Fe/TiB2 interface [C]. The 9th Cross-strait Workshop on the Engineering Materials, Tainan, China, November 7-8, 2014: 25-37.

[11] Y.F. Li, Y.M. Gao, Y.H. Cheng, Z.F. Huang, S.Z. Hou, S.L. Tang and S.Q. Ma. A study of interface property of Fe/WC composites both from ab initio calculations and experiments [C]. Advanced Metals, Ceramics and Composites Part II: The 12th China-Russia Symposium on Advanced Materials and Technologies, Kunming, Yunnan, November 19-22, 2013: 503-507.

[12] Shuli Tang, Yefei Li*, Yiran Wang, Yimin Gao, Q.L. Zheng, D.W. Yi, Theoretical study of mechanical and thermodynamic properties of titanium oxides TixOy, Materials Chemistry and Physics, Accept.

[13] L. Sun, Y.M. Gao, B. Xiao, Y.F. Li* and G.L. Wang. Anisotropic elastic and thermal properties of titanium borides by first-principles calculations [J]. Journal of Alloys and Compounds, 2013, 579(5): 457-467.

[14] L. Sun, Y.M. Gao, Y.F. Li*, D.W. Yi. Structural, bonding, anisotropic mechanical and thermal properties of Al4SiC4 and Al4Si2C5 by first-principles investigations. Journal of Asian Ceramic Societies,2016, 4: 289-298.

[15] L. Sun, Y.M. Gao, K. Yoshida, T. Yano, Y.F. Li*, Structure, mechanical, thermal and electronic properties of Al4Si2C5 under high pressure by DFT calculation, International Journal of Modern Physics B, 2016, 30: 1750012.

[16] Y.Z. Liu, J.D. Xing, Y.F. Li*, Y. Wang, Effect of carbon equivalent on thermal and mechanical properites of compacted graphite cast iron. Journal of Materials Research, 2016, 31 (16): 2516-2523.

[17] Y.Z. Liu, J.D. Xing, Y.F. Li*, J. Tan, L. Sun, J.B.Yan. Mechanical properites and anisotropy of thermal conductivity of Fe3-xCrxO4 (x=1-3), Journal of Materials Research, 2016, on line.

[18] G.L. Wang, Y.F. Li*, Y.M. Gao, Y.H. Cheng. Theoretical study of structural, mechanical, thermal and electronic properties of Ti3B4 with Ta3B4 structure under high pressure. Computational Materials Science, 2015, 104: 29-34.

[19] R.P. Gao, Y.F. Li*. Theoretical study on the electronic structure, mechanical property, and thermal expansion of yttrium oxysulfides. International Journal of Computational Materials Science and Engineering, 2015, 4 (1): 1550004.

[20] K.H. Zheng, Y.M. Gao, S.L. Tang, Y.F. Li*, S.Q. Ma. Interface structure and wear behavior of Cr26 ferrous matrix surface composites reinforced with CTCP [J]. Tribology Letters, 2014, 54 (1): 15-23

[21] K.H. Zheng, Y.M. Gao, Y.F. Li*. Three-body abrasive wear resistance of iron matrix composites reinforced with ceramic particles [J]. Proceedings of the Institution of Mechanical Engineers, 2014, 228 : 3-10

[22] S.L. Tang, Y.M. Gao and Y.F. Li*. Recent development in the fabrication of ceramic particles reinforced iron matrix wear resistant surface composite [J]. Ironmaking and Steelmaking. 2014, 41 (8): 633–640.

[23] 王国亮,高义民,李烨飞*,杨莹,孙良.硼化钛结构稳定性、力学和热力学性能理论研究 [J].稀有金属材料与工程.2014, 43 (3): 595-600.

[24] 郑开宏,高义民,李烨飞*,汤姝莉,史芳杰.具有钉扎效应的CTCP/Cr26复合材料制备及界面结构研究 [J].稀有金属材料与工程.2014, 43 (3): 698-703.

[25] 陈灿, 宋蕾,闻成语,潘武,郎禹,许自宽,覃超,李烨飞*,高义民. 不同润滑条件下B4C/hBN复相陶瓷与灰铸铁配副的摩擦学性能 [J] 中国科技论文, 2015, 10 (16): 1968-1972

[26] S.L.Tang, Y.M.Gao, Y.F. Li, Q.L. Zheng, Preparation and interface investigation of Fe/Al2O3p composite activated by Ni and Ti, Advanced Engineering Materials, 2016, 18 (11): 1913-1920.

[27] Yiran Wang, Yimin Gao, Y.F. Li, Chao Zhang, Liang Sun, Wenyan Zhai, Research on nickel modified graphite/Cu composites interface, Surface and Coatings Technology, 2017, 328: 70-79.

[28] Yiran Wang, Yimin Gao, Y.F. Li, Chao Zhang, Xiaoyu Huang, Wenyan Zhai, Effect of milling time on microstructure and mechanical properties of Cu-Ni-graphite composites, Materials Research Express, 4 (2017) 096506.

[29] Yiran Wang, Yimin Gao, Liang Sun, Y.F. Li, Baochao Zheng, Wenyan Zhai. Effect of physical properties of Cu-Ni-graphite composites on tribological characteristics by grey correlation analysis, Results in Physics, 2017, 7: 263-271.

[30] Yangzhen Liu, Jiandong Xing, Hanguang Fu, Y.F. Li, Liang Sun, Zheng Lv, Structural stability, mechanical properties, electronic structures and thermal properties of XS (X = Ti, V, Cr, Mn, Fe, Co, Ni) binary compounds, Physics Letters A, 2017, 381: 2648-2657.

[31] Peng Xiao, Yimin Gao, Cuicui Yang, Zhiwei Liu, Y.F. Li, Microstructure, mechanical properties and strengthening mechanisms of Mg matrix composites reinforced with in situ nanosized TiB2 particles, Materials Science and Engineering: A, 2018, 710: 251-259.

[32] X.X. Wang, Y.M. Gao, K. Li, J.B. Yan, Y.F. Li, Jianbo Feng. Effect of yttrium on the corrosion behaviour of 09CrCuSb alloy in concentrated sulphuric acid. Corrosion Science, 2013, 69, 369-375.

[33] X.X. Wang, Y.M. Gao, Y.F. Li, T. Yang. Effect of yttrium on the corrosion behavior of 09CrCuSb alloy in NaCl solution. Corrosion Science, 2014, 87, 211-217.

[34] 王欣欣, 高义民,李匡,李烨飞,冯剑波. 稀土钇对09CrCuSb合金耐硫酸腐蚀性能的影响. 西安交通大学学报, 2013, 47 (3), 69.

[35] S.Q. Ma, J.D. Xing, Y.L. He, H.G. Fu, Y.F. Li, Guangzhu Liu. Effect of orientation and lamellar spacing of Fe2B on interfaces and corrosion behavior of Fe-B alloy in hot-dip galvanization. Acta Materialia, 2016, 115 (15), 392-402.

[36] S.Q. Ma, J.D. Xing, Y.L. He, Y.F. Li, H.G. Fu. Microstructure and crystallography of M7C3 carbide in chromium cast iron. Materials Chemistry and Physics , 2015, 161 (1) 65-73.

[37] S.Q. Ma, Z.F. Huang, J.D. Xing, G.Z. Liu, Y.L. He, H.G. Fu, Y. Wang, Yefei Li, D.W.Yi. Effect of crystal orientation on microstructure and properties of bulk Fe2B intermetallic. Journal of Materials Research, 2015, 30 (2) 257-265.

[38] S.Q. Ma, J.D. Xing, H.G. Fu, Y.L. He, Y. Bai, Y.F. Li, Y.P. Bai. Interface characterisitcs and corrosion behavior of oriented bulk Fe2B alloy in liquid zinc. Corrosion Science, 2014, 78, 71-80.

[39] D.W. Yi, J.D. Xing, H.G. Fu, Z.Y. Zhang, J.M. Zhang, C.Y. Yang, S.Q. Ma, Yefei Li. Investigations on microstructures and three-body abrasive wear behaviors of Fe-B cast alloy containing cerium. Tribology Letters, 2015, 58, 21.

[40] D.W. Yi, Z.Y. Zhang, H.G. Fu, C.Y. Yang, S.Q. Ma, Y.F. Li. A study on the microstructures and toughness of Fe-B cast alloy containing rare earth. Journal of Materials Engineering and Performance, 2014, 24 (2) 626-634.

[41] X.Q. Li, Y.M. Gao, Q.Y. Yang, W. Pan, Y.F. Li, Z.C. Zhong. Evaluation of tribological behavior of B4C-hBN ceramic composites under water-lubricated condition. Ceramic International, 2015, 41 (6) 7387-7393.

[42] J.B. Yan, Y.M. Gao, Y. Gu, F. Sun, Z.Yang, J.T. Lu, H.F. Yin, Y.F. Li. Role of grain boundaries on the cyclic steam oxidation behaviour of 18-8 austenitic stainless steel. Oxidation of Metals, 2016, 85 (3) 409-424.

[43] H.J. Yang, Y.M. Gao, W.C. Qin, Y.F. Li. Microstructure and corrosion behavior of electroless Ni–P on sprayed Al–Ce coating of 3003 aluminum alloy, Surface and Coatings Technology, 2015, 281 (15), 176-183.

[44] T. Min, Y.M. Gao, Y.F. Li. First-principle calculations study on the electronic structures, hardness and debye temperatures  of chromium carbides. Rare Metal Materials and Engineering, 2002, 41 (2): 271-275.

[45] G.Z. Liu, J.D. Xing, S.Q. Ma, Y.R. Wang, S.C. Ma, Y.F. Li. Erosion-corrosion resistant property of directionally solidifed Fe-3.5B alloy in flowing liquid zinc. Rare Metal Materials and Engineering, 2016, 45 (10) 2568-2572.

[46] Liang Sun, Yimin Gao, Yefei Li*, Yoshida Katsumi, Wen Wang. The structural, electronic and mechanical properties of M2O2S (M=Y, La, Ce) by first-principles calculations [C]. 16th International conference on mathematical and computational methods in science and engineering, Kuala Lumpur, Malaysia, April 23-25, 2014: 121-125.

[47] Shuli Tang, Yimin Gao, Yefei Li*, Shengqiang Ma, Zhifu Huang, Liqiu Sun. An Investigation for Co-sintered ZTA Particles and Elements Powders/High-Cr Cast Iron Matrix Composites. The 10th Cross-strait Workshop on the Engineering Materials, 2015814-17 中国包头   154-160

[48] Yefei Li, Guoliang Wang, Yimin Gao, Shengqiang Ma, Shuli Tang, Liang Sun, Liqiu Sun. First-principles study on the adhesion, electronic structure, and bonding of Fe/TiB2 interface [C]. The 9th Cross-strait Workshop on the Engineering Materials, Tainan, China, November 7-8, 2014: 25-37.

[49] Yefei Li, Yimin Gao, Yonghong Cheng, Zhifu Huang, Shuzeng Hou, Shuli Tang and Shengqiang Ma. A study of interface property of Fe/WC composites both from ab initio calculations and experiments [C]. Advanced Metals, Ceramics and Composites Part II: The 12th China-Russia Symposium on Advanced Materials and Technologies, Kunming, Yunnan, November 19-22, 2013: 503-507.

[50] Shuli Tang, Yimin Gao, Yefei Li* and Zhen Liu. Preparation and interface investigation of Ni-Ti acticvated ZTA particles reinforced iron matrix composites [C]. Advanced Metals, Ceramics and Composites Part II: The 12th China-Russia Symposium on Advanced Materials and Technologies, Kunming, Yunnan, November 19-22, 2013: 497-502.

[51] Kaihong Zheng, Yimin Gao, Yefei Li* and Juan Wang. Three-body abrasive wear resistance of iron matrix composites reinforced with ceramic particles [C]. Advanced Metals, Ceramics and Composites Part II: The 12th China-Russia Symposium on Advanced Materials and Technologies, Kunming, Yunnan, November 19-22, 2013: 467-473.

[52] 刘欢, 李烨飞*,高义民,张泽中,金鹏灿,赵宇芳. ZTA陶瓷预制体/铁基复合材料制备及界面研究 [C]. 第十四届全国耐磨材料大会, 2015.10.22-24, 168-173.

[53] 汤姝莉, 高义民,李烨飞*. 活性元素浆料涂挂ZTA颗粒增强Cr15基复合材料制备及界面研究 [C]. 第十四届全国耐磨材料大会, 2015.9.22-24,.

[54] 汤姝莉,高义民,李烨飞*,刘震.Ni-Ti 活化烧结ZTA颗粒预制体的制备及性能研究 [C].第十四届全国特种铸造及有色合金学术年会,2013234-238



2. 5年授权专利:

[1] 李烨飞, 高义民, 邢建东, 鲍崇高, 皇志富. 一种破碎机复合材料锤头及其负压铸造铸造方法,  ZL 200910021871 20101110.

[2] 李烨飞,高义民, 邢建东, 鲍崇高, 皇志富. 一种破碎机复合材料锤头及其铸造方法. ZL 200910021867201129.

[3] 高义民, 李烨飞, 邢建东, 鲍崇高, 皇志富. 一种复合材料磨辊与磨盘及其负压铸造方法. 200910023027, 201161..

[4] 汤姝莉,李烨飞,高义民,邢建东,郑开宏,孙良.一种浆料涂挂ZTA颗粒钢铁基复合耐磨件的制备方法 [P]. ZL 2014 1 0029318.2, 2016330日。

[5] 汤姝莉,李烨飞,高义民,邢建东,郑开宏,孙良.一种活性元素烧结ZTA颗粒增强钢铁基复合锤头的制备方法[P]. ZL 2014 1 0029952.6, 201632

[6] 汤姝莉,李烨飞,高义民,邢建东,郑开宏.一种硬质合金预制体的制备方法及采用该硬质合金预制体制备复合耐磨件的方法 [P]ZL 2013 1 0075344.42015527

[7] 孙良, 李烨飞,高义民,汤姝莉. 一种FeWC三元相碳化物Fe3W3C及其制备方法 [P]. ZL 2013 1 0675889.9201585

[8] 孙良,李烨飞,高义民,汤姝莉,周寰林.一种气氛保护手套袋 [P]ZL 2013 1 0329948.72015429

[9] 孙良, 李烨飞,高义民,汤姝莉. 一种FeWC三元相碳化物Fe6W6C的制备方法[P]. ZL 201310676004.72016427

[10] 汤姝莉,李烨飞,高义民,邢建东,郑开宏,孙良.一种活性元素烧结ZTA颗粒增强钢铁基复合磨辊及磨盘的制备方法 [P]. ZL 201410030019.0, 2016429.

[11] 高义民,史芳杰,李林,王娟,李烨飞,郑飞燕,邢建东. 陶瓷颗粒增强复合耐磨件及其制备方法 [P]. ZL 201010235198.3, 2012328.

[12] 高义民,尹宏飞,李烨飞,郑开宏,史芳杰,李林,邢建东,王娟. 一种复合耐磨材料陶瓷颗粒增强体的制备方法 [P]. ZL 201010235199.8, 201274.

[13] 高义民,郑开宏,史芳杰,李烨飞,王娟,李林,尹宏飞,邢建东,王海燕,苏志辉. 复合耐磨件的预制体及用该预制体制造耐磨件的方法 [P]. ZL 201010235200.720121128

[14] 高义民,史芳杰,戚文军,农登,李烨飞,郑开宏,尹宏飞,邢建东,黄勇. 一种复合材料预制体的制备工艺 [P]. ZL 201010235201.1, 2012522

3. 5年科研获奖:

[1] 2016年获中国有色金属工业科学技术奖一等奖(项目名称:陶瓷颗粒增强钢铁基复合材料制备技术及应用,第3获奖人),2016.12.26

[2] 2016年获广州市科学技术奖一等奖(项目名称:陶瓷颗粒增强钢铁基复合材料制备技术及应用,第3获奖人),2017.3.23

[3] 2015年获教育部技术发明一等奖1项(项目名称:具有抗热损伤自生长膜的铁基合金制备技术及应用,第8获奖人),2016.2.26

[4] 2013年获广东省科学技术三等奖1项(项目名称:新型金属耐磨及复合材料技术及其产业化,第4获奖人),2014.4

4. 国际科研交流:

[1] 201710月邀请日本北海道大学松浦清隆、大野宗一、德永透子教授来我校参加学术研讨,促成签署我校与北海道大学之间的双学位协议;

[2] 201610月赴日本北海道大学工学部参加两校联合发表研讨会,商讨双学位事宜, Presentation, International Conference

[3] 20159月邀请日本北海道大学松浦清隆教授来我校参加学术研讨,Presentation

[4] 201411月赴台湾参加第九届海峡两岸工程材料研讨会,Conference Report

[5] 201311月于昆明参加中俄双边新材料会议:The 12th China-Russia Symposium on Advanced Materials and TechnologiesPoster Report

[6] 2010-2011年赴日本北海道大学进行为期12个月的学术研究,身份为博士研究生,研究方向为高性能硼化物基硬质合金制备及微结构研究;

[7] 201010月赴埃及卢克索参加国际铸铁会议:“International Conference of Science and Processing of Cast Iron IX”,Conference Report and Poster

[8] 先后协助指导多名研究生赴日本进行半年以上的交流学习。

5. 科研任职及人才奖励:

现任陕西省腐蚀与防护学会理事,陕西冶金青年科技奖获得者。

每年招收博士研究生1-2名、硕士研究生2-3名,招生专业:材料成形、金属材料、陶瓷材料、材料物理等相关专业。欢迎对此方向有兴趣的同学报考!