个人简介：

易艳良，西安交通大学工学博士，暨南大学副教授，硕士生导师。迄今，以主持人身份获批6项科研项目，在本领域知名期刊上发表论文50多篇，其中第一/通讯作者身份发表论文24篇，制修订国家标准1项，撰写专著2章节，授权发明专利5项。《Rare Metals》中英文双刊和《稀有金属与硬质合金》等期刊青年编委。担任本领域顶级期刊JMST、MSEA、JAC、Wear、Tribol Int等审稿人。

所授课程：

《材料加工工艺学》、《工程材料强度与断裂分析》和《材料强化的微观理论》

主持科研项目:

1.Fe-B-C合金界面演化诱发硼化物形态可控构筑及其作用机理研究，国家自然科学基金青年项目，在研

2.Fe2B异质形核的界面演化行为及其影响机制研究，广东省自然科学基金面上项目，在研

3.硼化物表面原子吸附下的受控生长行为及其组织调控机制研究，广东省自然科学基金区域联合基金，在研

4.表面吸附下钢液中碳化钒的受控生长行为及其形态可控构筑研究，国家地方联合工程中心开放基金，在研

5.基于第一性原理的铁硼合金异质形核界面行为及其组织性能调控，中央高校基本科研业务，在研

代表性论文:

1.Lai WJ, Vogel F, Zhao XY, Wang BB, Yi YL*, You DQ, Tong X, Li W, Yu X, Wang XJ*. Design of BCC refractory multi-principal element alloys with superior mechanical properties[J]. Materials Research Letters, 2022, 10(3): 133-140.

2.Yi YL, Li Q, Long SL, Lv Z, Li SJ, Liu YZ, Zheng BC, Li W. Effect of matrix microstructure on the matrix/M2B wear interaction and its quantitative characterization in an Fe-2wt%B alloy[J]. Wear, 2021,472:203608.

3.Yi YL, Li Q, Huang XY*, Zheng BC, Liu YZ, Tu XH, Li W. Influence mechanism of K2SO4 addition on microstructure, mechanical properties and abrasion resistance of Fe-2wt% B alloy[J]. Materials & Design, 2021, 197: 109164.

4.Yi YL, Long SL, Zhang R, Wu CY, Zhou SF. Influence of Al2O3 particles on the tribological properties of CoCrAlYTa coating produced by laser-induction hybrid cladding[J]. Ceramics International, 2021, 14: 19434-19442.

5.Jiang HW,Wang CY*,Ren ZW, Yi YL*, He L, Zhao XF. Influence of cutting velocity on gradient microstructure of machined surface during turning of high-strength alloy steel[J]. Materials Science and Engineering: A, 2021, 819:141354.

6. Lai WJ, Liu H, Yu X, Yi YL*, Li W, Zhou SF, Cui SG*, Wang XJ*. A design of TiZr-rich body-centered cubic structured multi-principal element alloys with outstanding tensile strength and ductility[J]. Materials Science and Engineering: A, 2021, 813:141135.

7. Liu YZ, Zheng BC, Jian YX, Zhang L, Yi YL*, Li W. Anisotropic in elasticity, sound velocity and minimum thermal conductivity of Al–Cu intermetallic compounds[J]. Intermetallics, 2020, 124: 106880.

8.Huang XY, Gao YM*, Yi YL*, Xiao P, Jian YX, Wang YR, Zhao SY, Liu QK, Ren ZJ. Microstructure evolution mechanisms and strength improvement of (6.5 vol% TiC + 3.3 vol% Ti5Si3)/Ti6Al4V composites via heat treatments[J]. Materials Science and Engineering A, 2020, 805:140581.

9.Yi YL, Xing JD*, Ren XY, Fu HG, Yi DW. Investigation on abrasive wear behavior of FeB alloys containing various molybdenum contents[J]. Tribology International, 2019, 135: 237-245.

10. Yi YL*, Li Q, Xing JD*, Fu HG, Yi DW, Liu YZ, Zheng BC. Effects of cooling rate on microstructure, mechanical properties, and residual stress of Fe-2.1 B (wt%) alloy[J]. Materials Science and Engineering: A, 2019, 754: 129-139.

11.Ren XY, Fu HG*, Xing JD, Yi YL*. Research on high-temperature dry sliding friction wear behavior of CaTi modified high boron high speed steel[J]. Tribology International, 2019, 132: 165-176.

12.Yi YL*, Xing JD*, Lu YF, Gao YM, Fu HG, Yu LL, Wan MJ, Zheng QL. Effect of normal load on two-body abrasive wear of an Fe-B-Cr-C based alloy with minor Cu and Ni additions[J]. Wear, 2018, 408: 160-170.

13.Yi YL*, Xing JD*, Yu LL, Fu HG, Wan MJ, Lu YF, Jian YX, Zheng QL, Chen Y. Effect of casting thickness on microstructure, mechanical properties and abrasion resistance of Fe-B cast alloy[J]. Tribology International, 2018, 122: 179-188.

14.Yi YL*, Xing JD*, Lu YF, Fu HG, Wan MJ, Yu LL, Zheng QL, Chen Y. Investigations on microstructure, mechanical properties and abrasion resistance of 4wt% Cr-2wt% Mn-2wt% Cu-Fe-B alloy[J]. Materials Characterization, 2018, 137: 222-230.

15.Yi YL*, Xing JD*, Wan MJ, Yu LL, Lu YF, Jian YX. Effect of Cu on microstructure, crystallography and mechanical properties in Fe-BC-Cu alloys[J]. Materials Science and Engineering: A, 2017, 708: 274-284.

专利：

1.一种高耐磨高铬白口铸铁及其制备方法:CN202110573470.7[P]. 2021-10-08.

2.一种高淬透性高硼铸钢及其制备方法:CN201810142386.8[P]. 2018-08-03.

3.一种激光选区熔化成形高强高耐蚀铜基偏晶合金的铜基复合粉末:CN202011427314.1[P]. 2021-04-13.

4.一种微喷射三维智能打印复杂结构超高温Nb-Si基合金的方法:CN202011427381.3[P]. 2021-04-30.

5.一种振荡激光-感应复合熔覆耐磨抗烧蚀铜基涂层方法及装置:CN202110206074.0[P]. 2021-06-22.