Journal Publications
- [1]Y. Peng, C. Fang*, W. Zhou, X. Meng. Mixed elastohydrodynamic lubrication analysis of roller-race contacts in tunnel boring machine main bearings. Physics of Fluids, 2026, 38(2). (IF 4.3, JCR Q1), 2026
- [2]Q. Chang, C. Fang*, H. Sun, W. Zhou. Fault dynamics-assisted open-set domain adaptation for fault diagnosis of roller bearings. Measurement Science and Technology, 2026, 37:036006., 2026
- [3]C. Fang*, Q. Chang, X. Hu, W. Zhou, X. Meng. A digital twin-enabled domain adaptation network for cross-space fault diagnosis of roller bearings. Mechanical Systems and Singal Processing, 2025, 236:113053. (IF 8.9, JCR Q1), 2025
- [4]J. Tang, C. Fang*, W. Zhou, H. Yan, X. Meng. A three-dimensional wheel–rail adhesion model for water-contaminated conformal contact. Physics of Fluids, 2025, 37(7). (IF 4.3, JCR Q1), 2025
- [5]Q. Chang, C. Fang*, W. Zhou, X. Meng. An open-set classifier-guided dynamic joint domain adaptation for fault diagnosis of rolling bearings. Structural Health Monitoring, 2025. (IF 5.7, JCR Q1), 2025
- [6]C. Fang*, X. Hu, Q. Chang, W. Zhou, X. Liu. Fault dynamic modeling for cylindrical roller bearings considering cage fracture and raceway defects. Engineering Failure Analysis, 2025, 169. (IF5.7, JCRQ1), 2025
- [7]Q. Chang, C. Fang*, L. Fan, W. Zhou, X. Meng. A dynamic weighted joint distribution domain adaptation network for cross-machine fault diagnosis of rolling bearings. Structural Health Monitoring, 2025. (IF 5.7, JCR Q1), 2025
- [8]Q. Chang, C. Fang*, W. Zhou. An enhanced filtering-dynamic matching-coordinated interaction framework for open-set fault diagnosis of rolling bearings. Measurement Science and Technology, 2025, 36(9)., 2025
- [9]Y. Wang, W. Zhou*, K. Zhou, C. Fang*, H. Yan, Z. Wang, et al. Study on instrumental coupler for heavy haul train. Mechanics Based Design of Structures and Machines, 2024:1-23.(IF 2.9, JCR Q2), 2024
- [10]C. Fang*, Y. Ding, H. Yan, J. Chen, W. Zhou, X. Meng. Prediction and analysis of wheel flange wear on small curved track considering wheel-rail conformal and lubricated contact. Wear, 2024, 558-559.(IF 5.3, JCR Q1), 2024
- [11]Q. Chang, C. Fang*, W. Zhou, X. Meng. A multi-order moment matching-based unsupervised domain adaptation with application to cross-working condition fault diagnosis of rolling bearings. Structural Health Monitoring, 2024.(IF 5.7, JCR Q1), 2024
- [12]C. Fang*, Y. Peng, W. Zhou, X. Meng. A fully coupled finite element solution for the mixed elastohydrodynamic lubrication of finite line contacts. Tribology International, 2024, 194:109530.(IF 6.1, JCR Q1), 2024
- [13]J. Yin, S. Cheng, C. Fang, X. Meng*, R. Zhang, B. Lyu. Tribo-dynamics analysis of engine small-end bearing under real temperature boundary conditions by a wireless in-situ measuring technology. Tribology International, 2024, 192. (IF 6.1, JCR Q1), 2024
- [14]C. Fang*, Y. Peng, W. Zhou, G. Gao, X. Meng. Finite element modeling and simulation of mixed elastohydrodynamic lubrication for the finite line contact under tilting loads. Tribology International, 2023:108660. (IF 5.62, JCR Q1), 2023
- [15]C. Fang, S.A. Jaafar, W. Zhou*, H. Yan, J. Chen, X. Meng, Wheel-rail contact and friction models: A review of recent advances, Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit, (2023) 095440972311567. (IF 1.870,JCR Q2), 2023
- [16]周伟,康婧彦,方聪聪*,陈军,张强,肖合婷,王祉歆. 铁路接触网套管双耳风致磨损特性研究[J/OL].铁道科学与工程学报.2023.https://doi.org/10.19713/j.cnki.43-1423/u.T20220844.(EI, CSCD), 2023
- [17]周瑾, 方聪聪*, 张洁, 等. 高速列车轴箱轴承典型故障特征的数值仿真分析[J]. 中南大学学报(自然科学版), 2023, 54(1): 365-377. (EI, Scopus, CSCD), 2023
- [18]C. Fang*, Y. Peng, Y. Guan, W. Zhou, G. Gao, X. Meng. A new numerical method for the tribo-dynamic analysis of cylindrical roller bearings. Nonlinear Dynamics, 2023. https://doi.org/10.1007/s11071-023-08408-8 (IF 5.741,JCR Q1), 2023
- [19]方聪聪*,关煜彬,周伟,高广军.轨道车辆牵引电机轴承的动力学建模与分析[J/OL]. 铁道科学与工程学报. 2022. https://doi.org/10.19713/j.cnki.43-1423/u.T20221644.(EI, CSCD), 2022
- [20]F. Peng*, L. Zheng, Y. Peng, C. Fang*, X. Meng, Digital Twin for rolling bearings: A review of current simulation and PHM techniques, Measurement, 2022, 201, 111728 (IF 5.131, JCR Q1)., 2022
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Congcong Fang
 Zip Code:79d1e3f13cda2a64dbd52019254d5091eb55e55354eef3f5fa76970c202553335807812e02a1ef5e731d31dbe54f9071df0d7ae0bba537755058fd7bf4418138bba9533bdd1402618e90f561c71ea255c43218d0a200d17d57f9db7be0bbf05973423c8d284936fc91a35485b614e1422f813a3daf461e9dbc6aa3751de1faee Postal Address:bea981dc7b2767fd0118ed97038e964bc9a6a365f423cdbb64108b81e01140c803a54b66ec56d60a0dd2781cc9f0cddfbec6071d9c490bcdc2a7d72566f0bac5ec17c46bc2c0f0271966faa7bf30cd5908b4d8402a7076bd979da6ba77bff0eaa2a7e4782ae1e32dac7921df291494f79b981b458a6429a45a4f28c5099cfb31 Mobile:4fca0cc390cc6f9a2289ecb304464922a32fe520c5a72839d884cbd959e022d9855736eb3ce972bc19a6515811a30672cb23ae4bb3c7f288e78543d65ce94231393a1321514757908a6632c4f2d3c042406644d57572302c64af2b06684d1f4f46460e92b8b5e9aa1f66d29ae1dc46ddf83be1a2a1c26f9ec595653ff753c65b Email:6207a1f05686359c6c2276279724d3ff783c474be5039634a38b150c6bfd728c15422a74c4ab4735d8f2358a60cc32c72c588d3e70744e07d6d706b70cf982a8f880762cab099395925bb13d7c3ed830a486fe70fb21050b0dda9a629b65c6c74688a1047716b89c7f57e172745cbe7f2b7cad4e2a03989faa4cd072c72a582e
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MOBILE Version
