5357拉斯维加斯官网(中国)股份有限公司 -搜狗百科

2005年于东北大学获工学博士学位，现任5357拉斯维加斯官网教授、博导。曾在清华大学从事博士后研究，美国普渡大学、新加坡南洋理工大学、英国爱丁堡大学做访问学者。2007年入选福建省新世纪优秀人才支持计划。研究领域包括：结构完整性与可靠性、结构强度学、疲劳与断裂、结构与材料的宏微观力学行为、计算材料学、特种装备安全评定方法等。作为项目负责人承担国家自然科学基金、中航集团产学研等研究课题十余项。发表研究论文60多篇，编著 “十三五”规划教材1部。

Personal Profile

Professor Chen obtained her Ph.D. in Mechanical Engineering from Northeastern University in 2005 and completed her postdoctoral research at the Department of Mechanics, Tsinghua University in March 2007. Currently, she is a professor and doctoral supervisor at the School of Aerospace Engineering, Xiamen University, and serves as a member of the Professor Committee and Academic Degree Evaluation Committee of the school. She also holds positions as a member of the Committee on Structures, Strength and Reliability of the Third Professional Information Network of China Aerospace, and a director of the Fatigue Branch of the Chinese Society for Materials Research. She has been a visiting scholar at Purdue University in the United States (for one year) and Nanyang Technological University in Singapore. From August 2022 to July 2023, she served as a visiting professor at the University of Plymouth in the UK. Her primary research areas include fatigue and fracture, multi-scale mechanical behavior of advanced materials under complex environments, structural topology optimization, structural integrity and reliability, computational materials science, and advanced material characterization techniques, etc. As PI, she has completed over 20 projects funded by the National Natural Science Foundation of China, the AVIC Industry-University-Research Cooperation Program, and various research institutes. In 2007, she was selected into the Fujian Province's New Century Excellent Talent Support Program. She has published over 70 peer-reviewed research papers and authored the "Fundamental of Modern Mechanical Strength" (first and second editions), designated key textbook for postgraduate students under the 14th Five-Year Plan.

Monograph
[1] Lijie Chen, Xuehong He, Fundamentals of Modern Mechanical Strength, 1ST Edition. Beijing: Metallurgical Industry Press, 2014. (370k words)
[2] Lijie Chen, Xuehong He, Lei Wang, Tieqiang Gang, Fundamentals of Modern Mechanical Strength, 2ST Edition. Beijing: Metallurgical Industry Press, 2014. (400k words)
Representative Journal papers
[31] Yanding Guo, Tieqiang Gang, Shanshan Cheng, Yi Wang, Lijie Chen*, Multi scale multi material concurrent topology optimization of graded cellular structures, Engineering with Computers https://doi.org/10.1007/s00366-025-02125-z
[30] Min Wei, Xining Lai, Shanshan Cheng, Xubin Ye, Tieqiang Gang*, Lijie Chen*, The extended GTN model for stiffness degradation prediction based on voids evolution mechanism, Materials Today Communications, 2025, https://doi.org/10.1016/j.mtcomm.2025.112361
[29] Yanding Guo, Shanshan Cheng, Lijie Chen*, Multiscale concurrent topology optimization of transient thermoelastic structures, Computers and Structures 306 (2025) 107594.
[28] Min Wei, Zhenting Yang, Wenming Jin, Yan Liu, Tieqiang Gang, Qiang Wan**, Lijie Chen*. Inverse analysis of elastic-plastic constitutive parameters for AlCrNbSiTi high-entropy alloy coatings: Elimination of non-ideal indenter tip effects based on the energy method, Journal of Alloys and Compounds, 1036 (2025) 181666.
[27] Yi Wang, Yanding Guo, Tieqiang Gang*, Lijie Chen*, Multi objective topology optimization for materials with negative Poisson’s ratio and thermal insulation. Int J Mech Mater Des (2024) 20:1251–1268.
[26] Yanding Guo, Shanshan Cheng, Yi Wang, Xining Lai and Lijie Chen*. Topology optimization for transient thermoelastic structures under time-dependent loads，Engineering with Computers, 2023, 14(2023): 223-235.
[25] Yanding Guo, Yi Wang, Dong Wei and Lijie Chen*. Multiscale concurrent topology optimization for thermoelastic structures under design-dependent varying temperature field, Structural and Multidisciplinary Optimization, 2023, 66:216.
[24] Yanding Guo, Dong Wei, Tieqiang Gang, Xining Lai, Xiaofeng Yang, Guangming Xiao and Lijie Chen*. Topology optimization for thermal structures considering design-dependent convection boundaries based on the bidirectional evolutionary structural optimization method, Mechanical Sciences, 2023, Mech. Sci., 14, 223–235.
[23] C. Cui, X. G. Gong, L. Jia. Chen, W. W. Xu**, L. J. Chen*. Atomic-scale Investigations on Dislocation-Precipitate Interactions Influenced by Voids in Ni-based superalloys. International Journal of Mechanical Sciences, 216 (2022) 106945.
[22] C. Cui, X. G. Gong, F. F. Xia, W. W. Xu*, L. J. Chen*. Misorientation effect of twist grain boundaries on crack nucleation from molecular dynamics. Engineering Fracture Mechanics, 243 (2021) 107509.
[21] Xia, FF; Sangid, MD; Xiao, Y; Gong, XG; Gang, TQ; Chen, LJ* ; Xu, WW*.Theoretical investigation of the crystallographic structure, anisotropic elastic response, and electronic properties of the major borides in Ni-based superalloys, Philosophical Magazine, 100 (2020) 998-1014.
[20] X. G. Gong, W.-W. Xu, C. Cui, Q. Yu, T. Gang*, L. Chen*, Exploring alloying effect on phase stability and mechanical properties of γ''-Ni3Nb precipitates with first-principles calculations, Materials and Design, 196 (2020).
[19] X. G. Gong, C. Cui, W. W. Xu*, L. J. Chen*. First-principles study of phase stability and temperature-dependent mechanical properties of Cr23-xMxC6 (M = Mo, Fe) phases. Journal of Alloys and Compounds, 824 (2020).
[18] C. Cui, Q. Yu, W. Wei, W. W. Xu*, L. J. Chen*. Molecular Dynamics Study on Tensile Strength of Twist Grain Boundary Structures under Uniaxial Tension in Copper. Vacuum, 184 (2020).
[17] Fangfang Xia, Weiwei Xu, Tieqiang Gang, Wei Wang, Lijie Chen*. Theoretical investigations of solid-solution eﬀect on the twinning of Ni. Journal of Physics and Chemistry of Solids, 133 (2019) 1-6.
[16] Fangfang Xia, Weiwei Xu, Lijie Chen*, Shunqing Wu, Michael D Sangid. Generalized stacking fault energies of Cr23C6 carbide: A ﬁrst-principles study. Computational Materials Science 158 (2019) 20-25.
[15] Lu Q; Gang TQ; Hao GB; Chen LJ. Compound optimal control of harmonic drive considering hysteresis characteristic. MECHANICAL SCIENCES, 10 (2019) 383-391.
[14] Wei-Wei Xu*, Fangfang Xia, Lijie Chen, Meng Wu, Tieqiang Gang, Yongfang Huang. High-temperature mechanical and thermodynamic properties of silicon carbide poly types. Journal of Alloys and Compounds, 768 (2018) 722-732.
[13] Xu, W. W.*, Shang, S. L., Wang, C. P., Gang, T. Q., Huang, Y. F., Chen, L. J., Liu X. J.*, Liu, Z. K. Accelerating exploitation of Co-Al-based superalloys from theoretical study. Materials & Design, 142 (2018) 139-148.
[12] Yongfang Huang ,Tieqiang Gang, Lijie Chen. Interacting Effects Induced by Two Neighboring Pits Considering Relative Position Parameters and Pit Depth. Materials, 10 (2017) 398.
[11] Yongfang Huang, Xubin Ye , Benrun Hu, Lijie Chen*, Equivalent crack size model for pre-corrosion fatigue life prediction of aluminum alloy 7075-T6, International Journal of Fatigue 88 (2016) 217–226.
[10] W. W. Xu, S. L. Shang, B. C. Zhou, Y. Wang, L. J. Chen, C. P. Wang, X. J. Liu, Z. K. Li, A first-principles study of the diffusion coefficients of alloying elements in dilute α-Ti alloys, Phys. Chem. Chem. Phys., 2016,18, 16870-16881.
[9] Yongfang Huang, Cheng Wei, LIJIE CHEN*, Peifeng Li. Quantitative correlation between geometric parameters and stress concentration of corrosion pits. Engineering Failure Analysis, 2014,44:168-178.
[8] Wei Cheng, Gang Tie-Qiang*, Chen Li-Jie*, and Zhao Yang. Critical condition for the transformation from Taylor cone to cone-jet. Chin. Phys. B Vol. 23, No. 6 (2014) 064702.
[7] Lijie Chen*. Tensile Creep Behavior and Strain-rate Sensitivity of Superalloy GH4049 at Elevated Temperatures, Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 527（2010）1120-1125.
[6] GANG Tie-Qiang, CHEN Li-Jie*, MEI Feng-Xiang. Poincaré Map Based on Splitting Methods, CHINESE PHYSICS LETTERS, 2008, 25(11): 3886-3889.
[5] GANG Tie-Qiang, MEI Feng-Xiang, CHEN Li-Jie. Structure-Preserving Algorithms for the Lorenz System, CHINESE PHYSICS LETTERS, 2008, 25(3): 866-869.
[4] Lijie Chen,Yinghua Liu,Pu Yang,Zhangzhi Cen. Limit analysis of structures containing flaws based on a modified elastic compensation method. European Journal of Mechanics A/Solids, 2008, 27(2): 195-209.
[3] Lijie Chen*, Pu Yang, Yinghua Liu, Bingye Xu. A modified elastic compensation method for limit analysis of complex structures. Chinese Journal of Mechanical Engineering, 2007, 43(5): 267-271.
[2] Lijie Chen, Yinghua Liu, Liyang Xie. Power-exponent Function Model for Low-cycle Fatigue Life Prediction and Its Applications—Part II: Life Prediction of Turbine Blades Under Creep-fatigue Interaction. International Journal of Fatigue, 2007，29(1): 10-19.
[1] Lijie Chen, Yinghua Liu, Liyang Xie. Power-exponent Function Model for Low-cycle Fatigue Life Prediction and Its Applications—Part I: Models and Validations. International Journal of Fatigue, 2007，29(1): 1-9.
Software Copyright
[2] Lijie Chen, Xining Lai, Weiwei Xu. Mechanical property evaluation system for multi-material fusion based on asymptotic homogenization v1.0 [Software], 2022SR1470339, Xiamen University, 2022.
[1] Lijie Chen, Hongyu Tian, Sen Liu. Fatigue Performance Analysis System v1.0 [Software], 2017SR187296, Xiamen University, 2016.

Grants & Contracts as PI
16. Study on low-cycle fatigue fracture assessment method for additive graded Nickel-based alloy considering pore damage and microstructure, National Natural Science Foundation of China (No. 52475169), 2025-2028, RMB 480k+144k.
15. Research on the Sealing Performance of High-Temperature Turbine Casing Structures, Beijing Institute of Power Machinery, 2025, RMB 190k.
14. Life Prediction Methods for Typical Composite Material Structures under Cyclic Large Loads, Beijing Institute of Strength and Environment, 2023-2024, RMB 450k.
13. Fatigue Life Prediction of Blades with Foreign Object Damage, Beijing Institute of Aeronautical Materials, 2022-2024, RMB 460k.
12. Comprehensive performance evaluation of 3D printed multi-material (functionally graded materials) and the Innovative structures, Dean Fund of Xiamen University, 2021-2025, RMB 700k.
11. Assessment method for ultra-low cycle fatigue life of a typical joint structure of air craft, Beijing Institute of Strength and Environment, 2021-2023, RMB 450k.
10. A multi-scale prediction method for mechanical behavior evolution of materials, School-Enterprise Cooperation Program, 2018-2023, RMB 300k.
9. Multi-scale life prediction method based on crack initiation from inclusions, National Natural Science Foundation of China (No. 51475396), 2015-2018, RMB 840k.
8. Research on Characterization Technology of Corrosion Damage Features of Aeronautical Engine Structures, 2016-2017, RMB 120k.
7. Research on Wear and Fatigue Test of Flexible Wheel of Harmonic Reducer, 2014, RMB 400k.
6. Research on the Design and Analysis of Fatigue Test for Harmonic Reducer, 2013-2014, RMB 125k.
5. Study on fatigue fracture behavior of new aluminum alloy under alternating action of corrosion and fatigue, School-Enterprise Cooperation Program, 2012-2016, RMB 1200k.
4. Fatigue and Crack Growth Behavior of Pre-Corroded Aluminum Alloy Based on Fracture Mechanics and Stress Severity Factor Method, Funded by Beijing Institute of Aviation Materials, 2011-2015, RMB 850k.
3. High cycle fatigue S-N curve tests of several aviation metal materials, Contract research of Beijing Institute of Aviation Materials, 2010-2011, RMB 260k.
2. Failure analysis and life prediction of high temperature materials, Supported by Program in University of Fujian Province, 2008-2010, RMB 300k.
1. Safety assessment method of high-temperature structures, Supported by the National Natural Science Foundation of China, 2007-2009, RMB 270k.

Selected Awards and Honors
1. New Century Excellent Talents in University of Fujian Province in 2007.
2. Faculty Fellowship of Xiamen University, Year 2012, Year 2015, Year 2019.
3. Supervisor of a Fujian Province Excellent Master Thesis Award Winner (Student’s name: Gong Xiaoguo), Year 2021.

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