刘易洲,博士后
研究方向:非晶合金跨尺度不均匀结构演化与力学响应机制的研究
学习与工作经历:
2025.07至今,助理研究员/博士后,中国科学院宁波材料技术与工程研究所,宁波
2019.09-2025.06,力学博士,湘潭大学,湘潭
2015.09-2019.06,土木工程学士,湖南理工大学,岳阳
发表文章:
- Y. Z. Liu, Y. H. Ding, B. Y. Yin, M. Gao, F. Xu. Revealing structural evolution during stress relaxation in metallic glass by nanoindentation and molecular dynamic simulation. Journal of Non-Crystalline Solids, 656(2025): 123483. (IF=3.200)
- F. Xu, Y. Z. Liu, X. Sun, J. F. Peng, Y. H. Ding, J. T. Huo, J. Q. Wang, M Gao. Percolation-like transition from nanoscale structural heterogeneities to shear bands in metallic glass detected by static force microscopy. Applied Surface Science, 611(2023): 155730. (导师第1,本人第2) (IF=6.700)
- F. Xu, Y. Z. Liu, B. T. Dai, Y. H. Ding, C. Kursun, M. Gao. In situ investigation of the evolution of shear transformation zones with different elastic tensile strains in metallic glass. Materials Science and Engineering A, 844(2023): 145556. (导师第1,本人第2) (IF=6.400)
- 王叶蓓, 刘易洲, 黄越, 许福, 高萌. 非晶合金中纳米尺度黏弹性不均匀结构与力学行为的关联性. 中国科学: 物理学 力学 天文学. 55 (2025): 286115.
- F. C. Wang, Y. H. Gao, M. C. Jian, Y. B. Wang, Y. Huang, Y. Y. Sun, Y. Z. Liu, F. Xu, C. Kursun, Y. Zhang. Revealing the disparate defect evolution paths with loading rates for ductile and brittle metallic glasses via nanoscale creep. Intermetallics, 177 (2025): 108584. (IF=4.400)
- H. J. Xie, Y. Z. Liu, Z. W. Long, F. Xu, L. Y. You, X.Q. Tang, C. Z. Zhu, Y. H. Ding. Micro-characterization of the adhesion properties and mechanisms at the asphalt-silica aggregate interface under combined thermal-oxygen aging and chloride salt erosion. Construction and Building Materials, 401(2023): 132818. (IF=7.400)
- F. Xu, Z. Y. Li, Y. Z. Liu, H. J. Xie, Z. W. Long, B. T. Dai, H. Yang, C. Z. Zhu, L. Y. You, D. Z. Jin. Microscopic morphology and adhesion performance of SBS/OMMT modified asphalt under chloride salt erosion. Construction and Building Materials. 458(2025): 139578. (IF=7.400)
- F. Xu, J. Deng, Y. Z. Liu, H. J. Xie, Z. W. Long, B. T. Dai, H. Yang, C. Z. Zhu, L. Y. You, D. Z. Jin. Multiscale revelation of asphalt morphology and adhesion performance evolution during stress relaxation process. Fuel, 380 (2025): 133244. (IF=6.700)
- F. Xu, J. J. Yu, Y. Z. Liu, H. J. Xie, Z. W. Long, B. T. Dai, H. Yang, C. Z. Zhu, L. Y. You, D. Z. Jin. Toward understanding the surface morphology and microscopic mechanical properties of asphalt after experiencing tensile and compressive stress [J]. Applied Surface Science, 680 (2025): 161407. (IF=6.300)
- Y. H. Zeng, Y. B. Chen, Y. Z. Liu, T. Y. Wu, Y. B. Zhao, D. Z. Jin, F. Xu. Prediction of compressive and flexural strength of coal gangue-based geopolymer using machine learning method. Materials Today Communications, 44 (2025): 112076. (IF=3.700)
- Z. W. Long, N. N. Guo, Y. Xiao, L. Y. You, F. Xu, Y. Z. Liu, X. Q. Tang, Y. H. Ding. Nanomechanical experiments and molecular dynamics explorations for the deterioration evolution of asphalt driven by chloride salt erosion. Journal of Materials in Civil Engineering, 35(11) (2023): 04023382. (IF=3.200)
- H. J. Xie, Y. Z. Liu, Z. W. Long, F. Xu, Lingyun You.Adhesion mechanisms of SBS modified asphalt mixtures: Molecular dynamics and density functional theory analysis under aging and chloride erosion. Construction and Building Materials. 483 (2025): 141748.