Educational Background
2008 – 2011, Jilin University, Doctor, Solid Mechanics, School of Mechanical Science and Engineering
2006 – 2008, Jilin University, Master, Engineering Mechanics, School of Mechanical Science and Engineering
2001– 2005, Jilin University, Bachelor, Mechanical Engineering, School of Mechanical Science and Engineering
Professional Experience
2018 – present, Associate Professor, School of Mechanical and Aerospace Engineering
2015 - 2018, Associate Professor, School of Mechanical Science and Engineering
2011 - 2015, Lecturer, School of Mechanical Science and Engineering
Research Interests
Smoothed finite element method, Simulation of size-dependent micro/nano-structures, Modelling and simulation of MEMS sensors, Enhancement of magnetoelectric coupling in multiferroic composites via smoothed FEM simulation; Computational mechanics; Engineering fracture analysis…
Research Projects
2020 - 2023 National Natural Science Foundation of China(51975243)…
Selected Publications
1. Liming Zhou, Xintong Li, Ming Li, Krzysztof Kamil ur. The smoothed finite element method for time-dependent mechanical responses of MEE materials and structures around Curie temperature, Computer Methods in Applied Mechanics and Engineering, 2020; 370: 113241.
2. Shuhui Ren, Guangwei Meng, Fei Cheng, Liming Zhou. Transient responses of functionally graded magneto-electro-elastic structures with holes in thermal environment using stabilized node-based smoothed radial point interpolation method, International Journal of Mechanical Sciences, 2020; 185: 105870.
3. Ming Li, Liming Zhou, Changyi Liu. The multi-physical cell-based smoothed finite element method for analyzing transient behavior of functionally grade magneto-electro-elastic thin-walled structures under thermal environment. Thin-Walled Structures, 2020; 155: 106876.
4. Shuhui Ren, Vinyas Mahesh, Guangwei Meng, Liming Zhou. Static responses of magneto-electro-elastic structures in moisture field using stabilized node-based smoothed radial point interpolation method. Composite Structures, 2020; 252:112696.
5. Shuhui Ren,Chengwei Na, Guangwei Meng, Liming Zhou. Stabilized node-based smoothed radial point interpolation method for micromechanical analysis of the magneto-electro-elastic structures in thermal environment. Mathematical Methods in the Applied Sciences, DOI:10.1002/mma.6832.
6. Liming Zhou, Bin Nie, Chuanxin Ren, Shuhui Ren, Guangwei Meng. Dynamic analysis of magneto-electro-elastic nanostructures using node-based smoothed radial point interpolation method combined with micromechanics-based asymptotic homogenization technique. Journal of Intelligent Material Systems and Structures, 2020;31(20):2342-2361.
7. M Li, MR Liu, LM Zhou. The static behaviors study of magneto-electro-elastic materials under hygrothermal environment with multi-physical cell-based smoothed finite element method, Composites Science and Technology, 2020; 193: 108130.
8. SH Ren, GW Meng, B Nie, LM Zhou, HW Zhao. A novel stabilized node-based smoothed radial point interpolation method (SNS-RPIM) for coupling analysis of magneto-electro-elastic structures in hygrothermal environment, Computer Methods in Applied Mechanics and Engineering, 2020; 365: 112975.
9. LM Zhou, SH Ren, B Nie, GK GUO, XY Cui. Coupling Magneto-electro-elastic node-based smoothed radial point interpolation method for free vibration and transient analysis of Functionally Graded Magneto-Electro-Elastic structures. Chinese Journal of Aeronautics, 2020; 33 (1):227-243.
10. ZC Ma, W Zhang, HW Zhao, FZ LU, ZH Zhang, LM Zhou, LQ Ren. Enhanced strength and slightly reduced ductility in a high entropy alloy via cold rolling and annealing, Journal of Alloys and Compounds, 2020; 817: 152709.
11. SH Ren, GW Meng, JY Wang, LM Zhou, HW Zhao. A stabilized node-based smoothed radial point interpolation method for functionally graded magneto-electro-elastic structures in thermal environment, Composite Structures, 2020; 234: 111674.
12. LM Zhou, M Li, Y Cai, HW Zhao, EF Zhao. The multi-physic cell-based smoothed finite element method for dynamic characterization of magneto-electro-elastic structures under thermal conditions, Composite Structures, 2020; 240: 112045.
13. LM Zhou, SH Ren, GW Meng, ZC Ma. Node-based smoothed radial point interpolation method for electromagnetic-thermal coupled analysis. Applied Mathematical Modelling, 2020; 78: 841-862.
14. LM Zhou, SH Ren, CY Liu, ZC Ma. A valid inhomogeneous cell-based smoothed finite element model for the transient characteristics of functionally graded magneto-electro-elastic structures. Compos Struct 2019;208:298-313.
15. LM Zhou, M Li, ZJ Ma, SH Ren, XL Li, JH Tang, ZC Ma. Steady-state characteristics of the coupled magneto-electro-thermo-elastic multi-physical system based on cell-based smoothed finite element method. Compos Struct 2019; 219:111-128.
16. LM Zhou, M Li, WJ Tian, P Liu. Coupled multi-physical cell-based smoothed finite element method for static analysis of functionally grade magneto-electro-elastic structures at uniform temperature. Compos Struct 2019; 226:111238.
17. Xue B, Wei BT, Ruan LX, Li FF, Jiang YS, Tian WJ, Su B, Zhou LM. The influencing factor study on the extraction of gallium from red mud. Hydrometallurgy 2019; 186:91-97.
18. EF Zhao, YN LU, K Cheng, LM Zhou, WH Sun, GW Meng. Buckling failure analysis of swing outrigger used in pump truck. Engineering Failure Analysis, 2019; 105: 555-565.
19. LM Zhou, SH Ren, GW Meng, XL Li, F Cheng. A multi-physics node-based smoothed radial point interpolation method for transient responses of magneto-electro-elastic structures. Eng Anal Bound Elem 2019;101:371-384.
20. LM Zhou, SH Ren, B Nie, HR Yang, P Liu. Magneto-electro-elastic node-based smoothed point interpolation method for micromechanical analysis of natural frequencies of nanobeams. Acta Mechanica, 2019, 230:3645-3666.
21. LM Zhou, B Nie, SH Ren, RY Liu, XL Li, Bing Xue. Coupling magneto-electro-elastic cell-based smoothed radial point interpolation method for static and dynamic characterization of MEE structures. Acta Mechanica 2019; 230:1641-1662.
22. LM Zhou, M Li, BK Chen, F Li, XL Li. An inhomogeneous cell-based smoothed finite element method for the nonlinear transient response of functionally graded magneto-electro-elastic structures with damping factors. J Intel Mat Syst Str 2019;30(3):416-37.
23. LM Zhou, M Li, GW Meng, HW Zhao. An effective cell-based smoothed finite element model for the transient responses of magneto-electro-elastic structures. J Intel Mat Syst Str 2018;29:3006-22.
24. LM Zhou, M Li, HW Zhao, WJ Tian. Cell-Based Smoothed Finite Element Method for the Intensity Factors of Piezoelectric Bimaterials with Interfacial Crack. International Journal of Computational Methods 2019, 16: 1850107.
25. LM Zhou, SH Ren, Y Cai, F Li. An Efficient Cell-Based Smoothed Finite Element Method for Free Vibrations of Magneto-electro-elastic Beams. International Journal of Computational Methods 2020; 17(4):1950001.
26. GW Meng, LH Wang, QX Zhang, SH Ren, XL Li and LM Zhou. Coupled Thermal–Electrical–Mechanical Inhomogeneous Cell-Based Smoothed Finite Element Method for Transient Responses of Functionally Graded Piezoelectric Structures to Dynamic Loadings. International Journal of Computational Methods 2020; 17(5):1950012.
27. Ma ZC, Ma XX, Zhao HW, Zhang F, Zhou LM, Ren LQ. Novel Crystallization Behaviors of Zr-Based Metallic Glass Under Thermo-Mechanical Coupled Fatigue Loading Condition. Acta Metallurgica Sinica (English Letters) 2019; 32:797-802.
28. Ma ZC, Zhao HW, Du XJ, Ma XX, Qiang ZF, Zhang F, Zhou LM, Ren LQ. Static and cyclic mechanical behaviours and fracture mechanisms of Zr-based metallic glass at elevated temperatures. Philosophical Magazine 2019; 99:835-852.…
Courses
Mechanics of Materials, 72 credit hour, 4.5 credits
Patents and Applications
1. Preparation method of functionally graded piezoelectric material capable of improving fracture resistance, ZL, 201610317778.4 China
Other Professional Activities
2020 Guest Editor, Modeling and Simulation of Size-dependent Behavior of Micro/nano-Structures and System
Honors and Awards
2020 Jilin University, Undergraduate Classroom Teaching Quality Award "Excellence Award"