材料疲劳与断裂实验室_中国科学院金属研究所

朱艳坤

工学硕士
中国科学院金属研究所助理研究员
1987年生于辽宁省北票市

联系方式

联系电话：024-83971621
邮　　箱：ykzhu@imr.ac.cn
通信地址：辽宁省沈阳市沈河区文化路72号

教育工作经历

2007.09—2011.07，辽宁工程技术大学，工程力学，学士；
2011.09—2014.06，大连理工大学，计算力学，硕士；
2014.07—2015.01，南车集团株洲电力机车研究所有限公司，设计师；
2015.01—2017.8，中国科学院金属研究所，研究实习员；
2017.08—至今，中国科学院金属研究所，助理研究员；

研究方向

金属材料与工程构件的力学模拟。

发表论文

[1] Y.K. Zhu, Q.Y. Chen, Q. Wang, H.Y. Yu, R. Li, J.P. Hou, Z.J. Zhang, G.P. Zhang, Z.F. Zhang, Effect of stress profile on microstructure evolution of cold-drawn commercially pure aluminum wire analyzed by finite element simulation, Journal of Materials Science & Technology, 2018, 34(7):8.

[2] Z.J. Zhang, Y.K. Zhu, P. Zhang, Y.Y. Zhang, W. Pantleon, Z.F. Zhang, Analytic approximations for the elastic moduli of two-phase materials, Physical Review B, 2017, 95: 134107.

[3] Z.Q. Liu, Y.K. Zhu, D. Jiao, Z.Y. Weng, Z.F. Zhang, R.O. Ritchie. Enhanced protective role in materials with gradient structural orientations: Lessons from Nature. Acta Biomaterialia, 2016, 44:31-40.

[4] Q. Wang, Y.K. Zhu, Z. Zhang, C. Fu, C. Dong, H. Su. Partial Load: A Key Factor Resulting in the Failure of Gear in the Wind Turbine Gearbox. Journal of Failure Analysis&Prevention, 2016,16:109–122.

[5] D. Jiao, Z.Q. Liu, Y.K. Zhu, Z.Y. Weng, Z.F. Zhang. Mechanical behavior of mother-of-pearl and pearl with flat and spherical laminations. Materials Science and Engineering C, 2016, 68:9-17.

[6] C.X. Ren, Q.Wang, Y.K. Zhu, Z.J. Zhang, Z.F. Zhang. Surface spinning strengthening (3S) technology: A new method for obtaining gradient structure in a surface layer of Cu-Al alloy. Acta Metallurgica Sinica (English Letters), 2017, 30:212-217.

[7] C.W. Shao, P. Zhang, Y.K. Zhu, Z.J. Zhang, J.C. Pang, Z.F. Zhang. Improvement of low-cycle fatigue resistance in TWIP steel by regulating the grain size and distribution, Acta Materialia. 2017, 134: 128-142.

[8] C.W. Shao, P. Zhang, Y.K. Zhu, Z.J. Zhang, Y.Z. Tian, Z.F. Zhang. Simultaneous improvement of strength and plasticity: Additional work-hardening from gradient microstructure, Acta Materialia. 2018, 145: 413-428.

[9] D.Q.Q. Wang, Q. Wang, Y.K. Zhu, P. Zhang, Z. J. Zhang, C. X. Ren, X. W. Li, Z.F. Zhang. Evaluating the fatigue cracking risk of surface strengthened 50CrMnMoVNb spring steel with abnormal life time distribution. Materials Science and Engineering: A, 2018, 732:192-204.

[10] B. Xia, P. Zhang, B. Wang, Y.K. Zhu, X. W. Li, Z.F. Zhang. A simultaneous improvement of the strength and plasticity of spring steels by replacing Mo with Si. Materials Science and Engineering: A, 2021, 820: 141516.

[11] C.W. Shao, S. Zhao, X.G. Wang, Y.K. Zhu, Z.F. Zhang. Architecture of high-strength aluminum–matrix composites processed by a novel microcasting technique, NPG Asia Mater, 2019, 11: 69.

[12] C.W. Shao, Q. Wang, P. Zhang, Y.K. Zhu, Z.K. Zhao, X.G. Wang, Z.F. Zhang. Improving the high-cycle fatigue properties of twinning-induced plasticity steel by a novel surface treatment process. Materials Science and Engineering A, 2019, 740-741:28-33.

[13] Z.Q. Liu, Y.Y. Zhang, M.Y. Zhang, G.Q. Tan, Y.K. Zhu, Z.F. Zhang. R.O. Ritchie. Adaptive structural reorientation: Developing extraordinary mechanical properties by constrained flexibility in natural materials. Acta Biomaterialia, 2019, 86:96-108.

[14] J. Zhang, G.Q. Tan, M.Y. Zhang, D. Jiao, Y.K. Zhu, S.G. Wang, Z.Q. Liu, D.X. Liu, Z.F. Zhang. Multiscale designs of the chitinous nanocomposite of beetle horn towards an enhanced biomechanical functionality. Journal of the mechanical behavior of biomedical materials, 2019, 91:278.

[15] J.Y. Hou, Z.H. Xiao, Z.Q. Liu, H. Zhao, Y.K. Zhu, L. Guo, Z.F. Zhang, R.O. Ritchie, Y. Wei, X.L. Deng. An Amorphous Peri-Implant Ligament with Combined Osteointegration and Energy-Dissipation. Advanced Materials, 2021.

[16] L.X. Meng, D.D. Ben, H.J. Yang , H.B. Ji, D.L. Lian, Y.K. Zhu, Z.F. Zhang, Effects of embedded spherical pore on the tensile properties of a selective laser melted Ti6Al4V alloy, Mater. Sci. Eng. A. 2021, 815: 141254.

[17] C.L. Yang, Z. J. Zhang, S.J. Li, Y.J. Liu, Sercombe. T.B, W.T. Hou, P. Zhang, Y.K. Zhu, Z.F. Zhang. Simultaneous improvement in strength and plasticity of Ti-24Nb-4Zr-8Sn manufactured by selective laser melting. Materials & design, 2018, 157:52-59.

[18] Z. Qu, Z.J. Zhang, Y.K. Zhu, R. Liu, S.L. Lu, Q.Q. Duan, B.N. Zhang, M.X. Zhao, J Eckert, Z.F. Zhang, Coupling effects of microstructure and defects on the fatigue properties of selective laser melted Ti-6Al-4V. Acta Materialia. under review.

[19] P. Wang, P. Zhang, B. Wang, Y.K. Zhu, J.C. Pang, R. Liu, Y. Liu, Y.K. Luan, P. Wang, D.Z. Li, Z.F. Zhang, The highest fatigue strength steel. Nature. under review.

[20] 王源晨，宋竹满，李瑞，史文博，朱艳坤，张广平，8.8级螺栓用ML40Cr钢的疲劳性能和裂纹扩展行为，材料研究学报，2019, 33(10)：771-775。

[21] 赵宁，焦大，朱艳坤，刘德学，刘增乾，张哲峰，天然铠甲高效防护的材料学机理，材料研究学报，2022，36(01)。

申请专利

[1] 朱艳坤，李瑞，余虹云，陈庆吟，钱苗，张哲峰。基于ANSYS/LS-dyna的纯铝导线多道次冷拉拔塑性变形模式预测方法，专利号：ZL 201710108388.0。

[2] 朱艳坤，李瑞，钱苗，马恒，钱科，高义波，张哲峰。一种评价输电线路铁塔螺栓强度的有限元分析方法，申请号：201910048696.8。

[3] 张振军，张哲峰，朱艳坤，张鹏，王强。一种多晶体材料弹性模量的预测方法，申请号：201711234661.0。

[4] 王强，张哲峰，朱艳坤，赵振凯。一种金属表面处理螺旋辊及其处理装置和处理方法，申请号：201710770337.4。

[5] 王强，张哲峰，朱艳坤，赵振凯。一种金属表面处理螺旋辊及其处理装置，申请号：201721106567.2。

[6] 张哲峰，王强，朱艳坤。一种旋压刀具，申请号：201620507842.0。

[7] 张哲峰，王强，朱艳坤。一种旋压刀具及金属表面旋压强化方法，申请号：201610365249.1。

[8] 赵吉中，王斌，张鹏，朱艳坤，张哲峰，伏培林，阚前华。一种循环载荷作用下金属结构接触的安定分析方法，申请号：202010862357.6。