IntroductionName: Lei Ge Title:Lecturer (Master's supervisor) Office: High-tech and Advanced Building 507 Tel: 17778065713 E-mail:leige@buct.edu.cn Group Website:https://acc.buct.edu.cn/main.htm Education: 2015-2018, M.S., Department of Power Engineering and Engineering Thermophysics, China University of Petroleum (East China), Qingdao, China (Supervisor: Professor Wenchun Jiang) 2011–2025, B.S., Department of Mechanism design, Manufacturing and Automatization, Yangzhou University, Yangzhou, China Work Experience: 2024–present, Lecturer, School of Materials Science and Engineering, Beijing University of Chemical Technology, China 2022-2024, Postdoctoral Fellow in Teacher Education,School of Materials Science and Engineering, Beijing University of Chemical Technology, China Scientific Research Achievements: Researches focus on the development of foundational composite material systems (high-performance resins), advanced molding process technologies (dry/wet winding, high-performance braided preforms and molding technologies, and 3D printing), and composite structural mechanics (advanced composite structure design, optimization, and multi-scale mechanical behavior). The expert member of Structural design Committee and carbon fiber and Composite Materials Committee of China Composite Materials Society. Over 20 papers have been published in high-impact international academic journals in the field of composites, such as Composites Science and Technology, Composites Part B, Chemical Engineering Journal, Composite Structures, International Journal of Mechanical Sciences, and so on. Among these, 11 papers were published as the first or corresponding author in SCI journals (including 10 in top journals). Over 13 invention patents have been applied, with 2 PCT patents authorized in the United States and 10 invention patents granted. Additionally, co-authored one academic monograph and one national standard, and have delivered keynote speeches at three authoritative academic conferences both domestically and internationally. About six projects have been led, including the National Natural Science Foundation of China Youth Fund Project, the Ministry of Education Joint Fund Youth Talent Fund Project, civilian matching projects, the China Postdoctoral Science Foundation General Project, and the Central Universities Basic Scientific Research Business Expense Free Exploration Project. Furthermore, more than ten projects have been participated, such as national high-level talent plan projects, the Ministry of Education Joint Fund Key Projects, the National Natural Science Foundation General Projects, equipment pre-research field funds, and Beijing Laboratory Funds.
EducationWork ExperienceSocial PositionSocial ActivitiesResearchResearch field: 1.Composite filament winding technology (dry/wet method), braiding technology, 3D printing, and the design and preparation of resin matrix matched by advanced composite molding technology 2.Structure design, preparation and characterization of advanced composite materials, including filament winding composites, textile composites, lattice/corrugated sandwich structure, and other complex structures by additive manufacturing; 3.Multi-scale mechanics and structural optimization of composite materials, including the establishment of constitutive model, UMAT subroutine,multi-scale modeling and the numerical simulation method. 4. Structural health monitoring by FBG sensors or other types of sensors in advanced composites, including the characteristic responsiveness,high precision signal resolution and efficient embedding settings. TeachingPostgraduatesFunding
Vertical ProjectHorizontal ProjectPublicationsSelected publications: Paper: 1. Ge L,Zhao J, Li H, Dong J, Geng H, Zu L, Lin S, Jia X, Yang X. A three-dimensional progressive failure analysis of filament-wound composite pressure vessels with void defects, Thin-Walled Structures,2024,199: 111858. 2. Song Y, Liu C, Li H, Xu K, Geng H, Wu H, Zu L, Jia X, Ge L *, Yang X. Optimizing dual-scale wettability of epoxy resin on large-tow carbon fiber via tension-driven capillary wicking,Composites Part B,2023,264:110936. 3. Ge L, Li H, Zhang Y, Zhong J, Chen Y, Fang D. Multiscale viscoelastic behavior of 3D braided composites with pore defects. Composites Science and Technology 2022; 217:109114. 4. Ge L, Li H, Gao Y, Lou R, Liu K, Zhong J, et al. Parametric analyses on multiscale elastic behavior of 3D braided composites with pore defects. Composite Structures 2022; 287:115332. 5. Ge L, Li H, Zhong J, Zhang C, Fang D. Micro-CT based trans-scale damage analysis of 3D braided composites with pore defects. Composites Science and Technology 2021; 211:108830. 6. Ge L, Li H, Zheng H, Zhang C, Fang D. Two-scale damage failure analysis of 3D braided composites considering pore defects. Composite Structures 2021; 260:113556. 7. Ge L, Zheng H, Li H, Liu B, Su H, Fang D. Compression behavior of a novel sandwich structure with bi-directional corrugated core. Thin-Walled Structures 2021; 161:107413. 8. Ge L, Li H, Liu B, Fang D. Multi-scale elastic property prediction of 3D five-directional braided composites considering pore defects. Composite Structures 2020; 244:112287. 9. Ge L, Jiang W, Wang Y, Tu S-T. Creep-fatigue strength design of plate-fin heat exchanger by a homogeneous method. International Journal of Mechanical Sciences 2018;146–147:221–33. 10. Ge L, Jiang W, Zhang Y, Tu S-T. Analytical evaluation of the homogenized elastic constants of plate-fin structures. International Journal of Mechanical Sciences 2017; 134:51–62. Patent: 1. Design Method for Creep-Fatigue Strength of Plate-Fin Heat Exchanger, PCT US Patent: US 10289772 B2 2. Method for Homogenizing the Compositions and Mechanical Performances of Nickel-Based Material Brazed Joints, PCT US Patent: US 10858724 B2 3. Method for Predicting the Equivalent Elastic Modulus of an Orthogonal Corrugated Core Structure, National Invention Patent: ZL 201811444469.9 4. Compact and Efficient Heat Exchanger Core and Its Welding Fixture, National Invention Patent: ZL 201710036448.2 5. Diffusion Welding Process for Heat Exchanger Cores, National Invention Patent: ZL 201710036447.8 6. Method for Homogenizing the Composition and Mechanical Properties of Nickel-Based Material Brazed Joints, National Invention Patent: ZL 201710238526.7 7. Design Method for Creep-Fatigue Strength of Plate-Fin Heat Exchanger, National Invention Patent: ZL 201610984992.5 8. Homogenization Design Method for Plate-Fin Heat Exchanger, National Invention Patent: ZL 201610984991.0 9. Method for Determining Mechanical Parameters of Plate-Fin Heat Exchanger and Its Application Design Method, National Invention Patent: ZL 201610985659.6 10. Efficient VOC Treatment System Using a Novel Heat Exchanger and Its Treatment Process, National Invention Patent: ZL 201610974246.8 Awards2. Committee member of Professional Board of Composite material Structure Design, Chinese Composite Materials Society 3. Best Poster Award at the China-Japan-Korea Carbon Materials Conference, 2023 4. CASC Award from China Aerospace Science and Technology Corporation, 2021 5. Shandong Province Outstanding Dissertation Award, 2019 6. University Outstanding Dissertation Award, 2018 7. National Scholarship, 2017 PatentHonor RewardAdmissions Information |