朱一林,男,1988年3月生,博士,成都大學特聘副研究員,分別于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筑與工程學院工作。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,主研國家杰出青年基金和重點項目各1項。主要從事材料循環本構關系、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,谷歌 Scholar引用100余次。
正文
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 建筑與土木工程學院 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 博士后研究員
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, 111152.
9. Lu, F., Kang, G.,Zhu, Y., Xi, C., Jiang, H. (2016). Experimental observation on multiaxial ratchetting of polycarbonate polymer at room 溫度. 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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