李福成
Li Fucheng
Email: fucheng_li@iphy.ac.cn
2009-2013 中南大学 获得材料学学士学位
2013-2016 中南大学 获得材料学硕士学位
2016-2020 香港城市大学 获得机械工程学博士学位
2020-2024 中国科学院物理研究所&松山湖材料实验室 博士后
2024-至今 中国科学院物理研究所 副研究员
发表文章:
最新
(1) F.C. Li#; Z.B. Zhang#; H.R. Liu#; W.Q. Zhu, T.Y. Wang; M. Park; J.Y. Zhang; N. Bönninghoff; X.B. Feng; H.T. Zhang; J.H. Luan; J.G. Wang; X.D. Liu; T.H. Chang; J.P. Chu; Y. Lu; Y.H. Liu*; P.F. Guan*; Y. Yang*; Oxidation-induced superelasticity in metallic glass nanotubes, Nature Materials, 2024, 23: 52-57.
(2) F.C. Li; M.X.. Li; L.W. Hu; J.S. Cao; C. Wang; Y.T. Sun; W.H. Wang; Y.H. Liu*; Achieving Diamond-like Wear in Ta-Rich Metallic glasses, Advanced Science, 2023, 2301053.
(3) K. Tao, F.C. Li*, Y.H. Liu*, E. Pineda, K. Song, J.C. Qiao*; Distinct avalanche dynamic detected in metallic glasses with high energy state revealing the crack-like shear banding mechanism, International Journal of Plasticity, 2024, 174, 103873.(*共同通讯)
(4) K. Tao#, F.C. Li#, Y.H. Liu, E. Pineda, K. Song, J.C. Qiao*; Unraveling the microstructural heterogeneity and plasticity of Zr50Cu40Al10 bulk metallic glass by nanoindentation, 2022, 154, 103305.(*共同一作)
1. F.C. Li, T. Liu, J.Y. Zhang, S. Shuang, Q. Wang, A.D. Wang, J.G. Wang, Y. Yang*, Amorphous-nanocrystalline alloys: Fabrication, properties and applications, Materials Today Advances, 4, 100027, 2019;
2. F.C. Li, T. Liu, T.Y. Wang, A.D. Wang, J.G. Wang, Y. Yang*, Understanding yielding and the unusual ductile-brittle-ductile transition in Fe-based amorphous nanocrystalline alloy: A combined micromechanical and thermodynamic study, Journal of the Mechanics and Physics of Solids, 132,103681, 2019;
3. F.C. Li, T.Y. Wang, Q.F. He, B.A. Sun, C.Y. Guo, T. Feng, Y. Yang*, Micromechanical mechanism of yielding in dual nano-phase metallic glass, Scr. Mater., 154, 186-191, 2018;
4. F.C. Li, S. Wang, Q.F. He, H. Zhang, B.A. Sun, Y. Lu, Y. Yang*, The stochastic transition from size dependent to size independent yield strength in metallic glasses, Journal of the Mechanics and Physics of Solids, 109, 200-216, 2017;
5. X.D. Liu, F.C. Li, Y. Yang*, “Softness” as the structural origin of plasticity in disordered solids: A quantitative insight from machine learning, Sci. Chin. Mater., 62(2), 154-160, 2019;
6. T. Liu, F.C. Li, A.D. Wang*, L. Xie, Q.F. He, J. Luan, A. He, X.M. Wang, C.T. Liu, Y. Yang*, High performance Fe-based nanocrystalline alloys with excellent thermal stability, J. Alloys Compd., 776, 606-613, 2019;
7. T.Y. Wang, Q.F. He, J.Y. Zhang, Z.Y. Ding, F.C. Li, Y. Yang*, The controlled large-area synthesis of two dimensional metals, Materials Today,36, 30-39, 2020;
8. J.Y. Zhang, Z.Y. Ding, F.C. Li, Y. Yang*, Controlled synthesis of nanostructured glassy and crystalline high entropy alloy films, Nanotechnology, 31, 045601, 2020;
9. Z.Q. Zhou, Y.J. Zhou, Q.F. He, Z.Y. Ding, F.C. Li, Y. Yang*, Machine learning guided appraisal and exploration of phase design for high entropy alloys, npj Computational Materials, 5, 128, 2019;
10. J. Ma, C. Yang, X.D. Liu, B.S. Shang, Q.F. He, F.C. Li, T.Y. Wang, D. Wei, X. Liang, X.Y. Wu, Y.J. Wang, F. Gong*, P.F. Guan*, W.H. Wang*, Y. Yang*, Fast surface dynamics enabled cold joining of metallic glasses, Science Advances, 5(11), eaax7256, 2019.
11. S. Fan, C. Jiang, H. Hu, F.C. Li, Y. Yang, Y. Shen, Y. Lu*, In situ micromechanical characterization of metallic glass microwires under torsional loading, Exp. Mech., 59(3), 361-368, 2019;
12. F.C. Li, M. Song*, S. Ni, S.F. Guo, X.Z. Liao, Correlation between hardness and shear banding of metallic glasses under nanoindentation, Materals Science and Engineering: A, 657, 38-42, 2016;
13. F.C. Li, Y. Xie, M. Song*, S. Ni, S.F. Guo, X.Z. Liao, A detailed appraisal of stress exponent used for characterizing creep behavior in metallic glasses, Materals Science and Engineering: A, 654, 53-59, 2016;
14. F.C. Li, Y. Xie, J. Gu, M. Song*, S. Ni, S.F. Guo, X.Z. Liao, Inhomogeneous creep deformation in metallic glasses, Materals Science and Engineering: A, 648, 57-60, 2015;
15. F.C. Li, J. Gu, M. Song*, S. Ni, S.F. Guo, The evolution of local mechanical properties of bulk metallic glasses caused by structural inhomogeneity, Journal of Alloys and Compounds, 591, 315-319, 2014;
Email: fucheng_li@iphy.ac.cn
2009-2013 中南大学 获得材料学学士学位
2013-2016 中南大学 获得材料学硕士学位
2016-2020 香港城市大学 获得机械工程学博士学位
2020-2024 中国科学院物理研究所&松山湖材料实验室 博士后
2024-至今 中国科学院物理研究所 副研究员
发表文章:
最新
(1) F.C. Li#; Z.B. Zhang#; H.R. Liu#; W.Q. Zhu, T.Y. Wang; M. Park; J.Y. Zhang; N. Bönninghoff; X.B. Feng; H.T. Zhang; J.H. Luan; J.G. Wang; X.D. Liu; T.H. Chang; J.P. Chu; Y. Lu; Y.H. Liu*; P.F. Guan*; Y. Yang*; Oxidation-induced superelasticity in metallic glass nanotubes, Nature Materials, 2024, 23: 52-57.
(2) F.C. Li; M.X.. Li; L.W. Hu; J.S. Cao; C. Wang; Y.T. Sun; W.H. Wang; Y.H. Liu*; Achieving Diamond-like Wear in Ta-Rich Metallic glasses, Advanced Science, 2023, 2301053.
(3) K. Tao, F.C. Li*, Y.H. Liu*, E. Pineda, K. Song, J.C. Qiao*; Distinct avalanche dynamic detected in metallic glasses with high energy state revealing the crack-like shear banding mechanism, International Journal of Plasticity, 2024, 174, 103873.(*共同通讯)
(4) K. Tao#, F.C. Li#, Y.H. Liu, E. Pineda, K. Song, J.C. Qiao*; Unraveling the microstructural heterogeneity and plasticity of Zr50Cu40Al10 bulk metallic glass by nanoindentation, 2022, 154, 103305.(*共同一作)
1. F.C. Li, T. Liu, J.Y. Zhang, S. Shuang, Q. Wang, A.D. Wang, J.G. Wang, Y. Yang*, Amorphous-nanocrystalline alloys: Fabrication, properties and applications, Materials Today Advances, 4, 100027, 2019;
2. F.C. Li, T. Liu, T.Y. Wang, A.D. Wang, J.G. Wang, Y. Yang*, Understanding yielding and the unusual ductile-brittle-ductile transition in Fe-based amorphous nanocrystalline alloy: A combined micromechanical and thermodynamic study, Journal of the Mechanics and Physics of Solids, 132,103681, 2019;
3. F.C. Li, T.Y. Wang, Q.F. He, B.A. Sun, C.Y. Guo, T. Feng, Y. Yang*, Micromechanical mechanism of yielding in dual nano-phase metallic glass, Scr. Mater., 154, 186-191, 2018;
4. F.C. Li, S. Wang, Q.F. He, H. Zhang, B.A. Sun, Y. Lu, Y. Yang*, The stochastic transition from size dependent to size independent yield strength in metallic glasses, Journal of the Mechanics and Physics of Solids, 109, 200-216, 2017;
5. X.D. Liu, F.C. Li, Y. Yang*, “Softness” as the structural origin of plasticity in disordered solids: A quantitative insight from machine learning, Sci. Chin. Mater., 62(2), 154-160, 2019;
6. T. Liu, F.C. Li, A.D. Wang*, L. Xie, Q.F. He, J. Luan, A. He, X.M. Wang, C.T. Liu, Y. Yang*, High performance Fe-based nanocrystalline alloys with excellent thermal stability, J. Alloys Compd., 776, 606-613, 2019;
7. T.Y. Wang, Q.F. He, J.Y. Zhang, Z.Y. Ding, F.C. Li, Y. Yang*, The controlled large-area synthesis of two dimensional metals, Materials Today,36, 30-39, 2020;
8. J.Y. Zhang, Z.Y. Ding, F.C. Li, Y. Yang*, Controlled synthesis of nanostructured glassy and crystalline high entropy alloy films, Nanotechnology, 31, 045601, 2020;
9. Z.Q. Zhou, Y.J. Zhou, Q.F. He, Z.Y. Ding, F.C. Li, Y. Yang*, Machine learning guided appraisal and exploration of phase design for high entropy alloys, npj Computational Materials, 5, 128, 2019;
10. J. Ma, C. Yang, X.D. Liu, B.S. Shang, Q.F. He, F.C. Li, T.Y. Wang, D. Wei, X. Liang, X.Y. Wu, Y.J. Wang, F. Gong*, P.F. Guan*, W.H. Wang*, Y. Yang*, Fast surface dynamics enabled cold joining of metallic glasses, Science Advances, 5(11), eaax7256, 2019.
11. S. Fan, C. Jiang, H. Hu, F.C. Li, Y. Yang, Y. Shen, Y. Lu*, In situ micromechanical characterization of metallic glass microwires under torsional loading, Exp. Mech., 59(3), 361-368, 2019;
12. F.C. Li, M. Song*, S. Ni, S.F. Guo, X.Z. Liao, Correlation between hardness and shear banding of metallic glasses under nanoindentation, Materals Science and Engineering: A, 657, 38-42, 2016;
13. F.C. Li, Y. Xie, M. Song*, S. Ni, S.F. Guo, X.Z. Liao, A detailed appraisal of stress exponent used for characterizing creep behavior in metallic glasses, Materals Science and Engineering: A, 654, 53-59, 2016;
14. F.C. Li, Y. Xie, J. Gu, M. Song*, S. Ni, S.F. Guo, X.Z. Liao, Inhomogeneous creep deformation in metallic glasses, Materals Science and Engineering: A, 648, 57-60, 2015;
15. F.C. Li, J. Gu, M. Song*, S. Ni, S.F. Guo, The evolution of local mechanical properties of bulk metallic glasses caused by structural inhomogeneity, Journal of Alloys and Compounds, 591, 315-319, 2014;