朱一林[成都大學特聘副研究員]

朱一林[成都大學特聘副研究員]
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朱一林,男,1988年3月生,博士,成都大學特聘副研究員,分別於2009年7月和2015年7月在西南交通大學工程力學和固體力學專業獲學士和博士學位(碩博連讀),畢業時均榮獲“四川省優秀畢業生”稱號,2015年9月作為人才引進被特聘副研究員進入成都大學建築與工程學院工作。2011年,曾榮獲西南交通大學“軌道交通行業拔尖創新人才”培育資格。主持西南交通大學博士生創新基金1項,主研國家傑出青年基金和重點項目各1項。主要從事材料循環本構關係、多場耦合問題、生物力學、拉脹結構材料以及疲勞損傷方面的研究。在《International Journal of Plasticity》、《International Journal of Mechanical Sciences》、《Journal of the Mechanical Behavior of Biomedical Materials》、《Journal of Biomechanics》以及《ASME-Journal of Applied Mechanics》等國際固體力學、材料科學期刊上發表SCI論文15篇,Google Scholar引用100餘次。

主要研究方向

(1)金屬材料大變形循環本構模型。

(2)金屬材料熱-力耦合循環本構模型。

(3)生物材料循環本構模型。

(4)高分子材料循環本構模型。

(5)拉脹材料力學行為。

教育研究經歷

2005.09~2009.07 西南交通大學 力學與工程學院 工程力學 本科

2009.09~2015.7 西南交通大學 力學與工程學院 固體力學 博士(碩博連讀)

2015.09~2018.09 成都大學 建築與土木工程學院 特聘副研究員

2015.10~2015.12 香港理工大學 工業與系統控制工程系 助理研究員

2016.03~2017.07 新加坡國立大學 土木與環境工程系 博士後研究員

學術論文 代表性論文:

1. Wang, Z. P., Poh, L. H., Dirrenberger, J., Zhu, Y., & Forest, S. (2017). Isogeometric shape optimization of smoothed petal auxetic structures via computational periodic homogenization. Computer Methods in Applied Mechanics and Engineering, 323, 250-271.

2. Zhu, Y., Kang, G., Yu, C. (2017). A finite cyclic elasto-plastic constitutive model to improve the description of cyclic stress-strain hysteresis loops. International Journal of Plasticity, 95, 191-215.

3. Zhu, Y. (2017). Cyclic torsion behavior and the related thermal response of 316L stainless steel tube: Experiments and FE simulations. International Journal of Mechanical Sciences, 128, 17-22.

4. Zhu, Y., & Poh, L. H. (2017). On an energetic or dissipative isotropic hardening mechanism for thermo-mechanical models in cyclic loading. International Journal of Mechanical Sciences, 122, 297-307.

5. Zhu, Y., Lu, F., Yu, C., Kang, G. (2016). A rate-type nonlinear viscoelastic-viscoplastic cyclic constitutive model for polymers: Theory and application. Polymer Engineering & Science, 56: 1375-1381.

6. Zhu, Y., Poh, L. H. (2016). A finite deformation elasto-plastic cyclic constitutive model for ratchetting of metallic materials. International Journal of Mechanical Sciences, 117, 265-274.

7. Zhu, Y., Kang, G., Yu, C., Poh, L. H. (2016). Logarithmic rate based elasto-viscoplastic cyclic constitutive model for soft biological tissues. Journal of the Mechanical Behavior of Biomedical Materials, 61, 397-409.

8. Zhu, Y., Kang, G., Kan, Q., Bruhns, O. T., Liu, Y. (2016). Thermo-mechanically coupled cyclic elasto-viscoplastic constitutive model of metals: Theory and application. International Journal of Plasticity, 79, 111-152.

9. Lu, F., Kang, G., Zhu, Y., Xi, C., Jiang, H. (2016). Experimental observation on multiaxial ratchetting of polycarbonate polymer at room temperature. Polymer Testing, 50, 135-144.

10. Yu, C., Kang, G., Lu, F., Zhu, Y., Chen, K. (2016). Viscoelastic-Viscoplastic Cyclic Deformation of Polycarbonate Polymer: Experiment and Constitutive Model. Journal of Applied Mechanics, 83(4), 041002.

11. Yu, C., Kang, G., Kan, Q., Zhu, Y. (2015). Rate-dependent cyclic deformation of super-elastic NiTi shape memory alloy: Thermo-mechanical coupled and physical mechanism-based constitutive model. International Journal of Plasticity, 72, 60-90.

12. Ding, J., Kang, G., Zhu, Y., Zhu, M. (2014). Finite element analysis on bending fretting fatigue of 316L stainless steel considering ratchetting and cyclic hardening. International Journal of Mechanical Sciences, 86, 26-33.

13. Zhu, Y., Kang, G., Kan, Q., Bruhns, O. T. (2014). Logarithmic stress rate based constitutive model for cyclic loading in finite plasticity. International Journal of Plasticity, 54, 34-55.

14. Zhu, Y., Kang, G., Kan, Q., Yu, C. (2014). A finite viscoelastic–plastic model for describing the uniaxial ratchetting of soft biological tissues. Journal of biomechanics, 47(5), 996-1003.

15. Zhu, Y., Kang, G., Ding, J., Zhu, M. (2013). Study on bending fretting fatigue of LZ50 axle steel considering ratchetting by finite element method. Fatigue & Fracture of Engineering Materials & Structures, 36(2), 127-138.

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