Education

PhD, Material Science and Engineering

Sep. 2006〜Feb. 2010: City University of Hongkong, Hongkong, China

MPhil, Material Physics and Chemistry

Sep. 2001 〜Jul. 2004: Guangxi University, Nanning, China

Bs, Material Engineering

Sep. 1995 〜Jul. 1999: Taiyuan University and Technology, Taiyuan, China

Working Experience

Jun. 2018 〜Present, Associate Professor, Beijing University of Technology Jun. 2010 〜Jun. 2018, Assistant Professor, Beijing University of Technology Sep. 2004〜Jun. 2006, Assistant Professor, Beijing Institute of Petrochemical Technology

Research Areas

1. Microstructure and mechanical properties based on laser additive manufacturing

2. In-situ investigation of structure-mechanical property of laser additive

manufactured materials

Publications

1. Jinyao Ma, Junxia Lu, Liang Tang, Jin Wang, Lijun Sang,Yuefei Zhang*, Ze Zhang*, A novel instrument for investigating the dynamic microstructure evolution of high temperature service materials up to 1150 in scanning electron microscope, Review of Scientific Instruments, 91, 043704 (2020)

2. Rafi Ullah, Junxia Lu*, Lijun Sang, You Xiaoxiao, Wenjing Zhang, Yuefei Zhang* and Ze Zhang. In-situ tensile deformation behavior of as-built laser direct metal deposited Ti—6Al—4V alloy at 200 °C, Journal of Alloys and Compounds 817 (2020) 152781.

3. Wenjing Zhang, Junxia Lu*, Jin Wang, Lijun Sang, Jinyao Ma, Yuefei Zhang*, Ze Zhang. In-situ EBSD study of deformation behavior of Inconel 740H alloy at high- temperature tensile loading, Journal of Alloys and Compounds 820 (2020) 153424.

4. Xiaopeng Cheng, Jianming Zheng, Junxia Lu, Yonghe Li, Pengfei Yan* and Yuefei Zhang*. Realizing superior cycling stability of Ni-Rich layered cathode by combination of grain boundary engineering and surface coating, Nano Energy 62 (2019) 30-37.

5. Jin Wang, Junxia Lu*, Xiaoxiao You, Rafi Ullah, Lijun Sang, Ling Chang, Yuefei Zhang* and Ze Zhang. In-situ comparison of deformation behavior at 23 〇C and 650 °C of laser direct melting deposited Ti-6Al-4V alloy, Materials Science & Engineering A 749 (2019) 48-55.

6. Junxia Lu*, Ling Chang, Jin Wang, Lijun Sang, Shikai Wu, Yuefei Zhang*. In- situ investigation of the anisotropic mechanical properties of laser direct metal deposition Ti6Al4V alloy, Materials Science & Engineering A 712 (2018) 199-205.

7. Jun-Xia Lu*, Ling Chang, Shi-Kai Wu, Shi-Kun Yin, Dendritic boundary corrosion of AA2198 weld using fiber laser welding with Al-Cu filler wire, Acta Metall. Sin., 31 (2018) 735-741.

8. Yonghe Li, Junxia Lu, Xiaopeng Cheng, Huifeng Shi, Yuefei Zhang*, Interfacial lithiation induced leapfrog phase transformation in carbon coated Se cathode observed by in-situ TEM, Nano Energy 48 (2018) 441-447

9. D.S. Sun, Y.H. Li, X.P. Cheng, H.F. Shi, S. Jaffer, K. Wang, X.Q. Liu, J.X. Lu*, Y.F. Zhang*, Efficient utilization of oxygen-vacancies-enabled NiC〇2〇4 electrode for high-performance asymmetric supercapacitor, Electrochimica Acta, 279 (2018) 269-278.

10. Shikai Wu*, Jianchao Zhang, Jiaoxi Yang, Junxia Lu, Hongbin Liao, Xiaoyu Wang, Investigation on microstructure and properties of narrow-gap laser welding on reduced activation ferritic/martensitic steel CLF-1 with a thickness of 35 mm, Journal of Nuclear Mateirals, 503 (2018) 66-74.

11. X.P. Cheng, Y.H. Li, H.F. Shi, J.X. Lu*, Y.F. Zhang*, Rate-dependent electrochemical reaction mechanism of spinel metal oxide anode studied by in situ TEM, Journal of Alloys and Compounds, 763 (2018) 349-354.

12. Xiaopeng Cheng, Yonghe Li, Lijun Sang, Jinyao Ma, Huifeng Shi, Xianqiang Liu, Junxia Lu*, Yuefei Zhang*, Boosting the electrochemical performance of MoO3 anode for long-life lithium ion batteries: Dominated by an ultrathin TiO2 passivation layer, Electrochimica Acta, 269 (2018) 241-249.

13. J.N. Qiao, J.X. Lu, S.K. Wu*, Fatigue cracking characteristics of fiber Laser- VPTIG hybrid butt welded 7N01P-T4 aluminium alloy, International Journal of Fatigue, 98 (2017) 32-40.

14. Junxia Lu*, Wuxiong Yang, Shikai Wu, et al, Microstructure and mechanical properties of galvanized steel/AA6061 joints by laser fusion brazing welding, Acta Metall. Sin., 27 (2014) 670-676.

15. Fei Wang, Yuefei Zhang*, Junxia Lu, Peng Zang, Jin Wang, Xiaona Zhang, In situ observation of intergranular fracture propagation in nanocrystalline freestanding ultrathin tungsten film, Materials Letters, 122 (2014) 334-337.

16. Y.F. Zhang*, F. Wang, P. Zang, J. Wang, S.C. Mao, X.N. Zhang, J.X. Lu, In-situ observation of crack propagation through the nucleation of nanoscale voids in ultra-thin, freestanding Ag films, Mater. Sci. Eng. A, 618 (2014) 614-620.

17. J.X. Lu*, J.L. Zhang, C.H. Shek, Corrosion of glassy (Ni8Nb5)99.5Sb0.5 alloy and stability of passive film, Rare Metal Materials and Engineering, 42 (2013) 447-451.

Personal statement

Junxia Lu is an associate professor and master supervisor of Beijing University of Technology in institute of laser engineering. Her research group interests are focused on in-situ investigation of microstructure and mechanical properties of laser additive manufacturing materials. She has been engaged in teaching and research for more than ten years. She has presided one National Natural Science Foundation of China project and one Beijing Natural Science Foundation project. She has published more than 30 papers on international peer reviewed journals.