您目前的位置: 首页» 科学研究» 学术梯队» 研究队伍

从道永

 

从道永

教授、博士生导师

北京科技大学新金属材料国家重点实验室

北京市海淀区学院路30号

邮编:100083

E-mail: dycong@ustb.edu.cn

 

Daoyong Cong

Prof. Dr.

State Key Laboratory for Advanced Metals and Materials

University of Science and Technology Beijing (USTB)

Address: No. 30, Xueyuan Road, Haidian District, Beijing 100083, China

E-mail: dycong@ustb.edu.cn

 

教育背景

2003.07    东北大学尖子班,工学学士

2009.02    法国梅斯大学国家科研中心(CNRS)织构研究与材料应用实验室(LETAM),博士

 

Education Background

Jul. 2003         B. E.         Top Class, Northeastern University, China

Feb. 2009       Ph. D.      Laboratory of Study of Textures and Application to Materials (LETAM) (UMR CNRS 7078), University of Metz, France

 

工作经历

2009.03-2011.04  德国莱布尼茨固态与材料研究所(IFW Dresden),洪堡学者

2011.05-2013.04  澳大利亚迪肯大学前沿材料研究所(IFM),Alfred Deakin研究员

2013.05-至今        北京科技大学新金属材料国家重点实验室,教授

 

Work Experience

Mar. 2009 - Apr. 2011      Humboldt Research Fellow, Leibniz Institute for Solid State and Materials Research Dresden (IFW Dresden), Germany

May 2011 – Apr. 2013       Alfread Deakin Research Fellow, Institute for Frontier Materials, Deakin University, Australia

May 2013 – present          Professor, State Key Lab. for Advanced Metals and Materials, University of Science and Technology Beijing, China

 

研究方向

1. 先进马氏体相变多功能合金

2. 新型磁驱动相变材料

3. 高性能形状记忆合金

 

Research Interest

1. Advanced multifunctional alloys based on martensitic transformation

2. Novel magnetically driven phase transition materials

3. High-performance shape memory alloys

 

代表性论文*为通讯作者)

Selected Publications* marks corresponding author

1. Y. H. Qu, D. Y. Cong*, X. M. Sun, Z. H. Nie, W. Y. Gui, R. G. Li, Y. Ren and Y. D. Wang: Giant and reversible room-temperature magnetocaloric effect in Ti-doped Ni-Co-Mn-Sn magnetic shape memory alloys. Acta Materialia 134, 236-248 (2017).

2. Z. Yang, D. Y. Cong*, X. M. Sun, Z. H. Nie and Y. D. Wang: Enhanced cyclability of elastocaloric effect in boron-microalloyed Ni-Mn-In magnetic shape memory alloys. Acta Materialia 127, 33-42 (2017).

3. D. Y. Cong, K. C. Rule, W. H. Li, C. H. Lee, Q. H. Zhang, H. L. Wang, Y. L. Hao, Y. D. Wang and E. W. Huang: Confined martensitic phase transformation kinetics and lattice dynamics in Ni-Co-Fe-Ga shape memory alloys. Acta Materialia 110, 200-206 (2016).

4. D. Y. Cong*, G. Saha and M. R. Barnett: Thermomechanical properties of Ni-Ti shape memory wires containing nanoscale precipitates induced by stress-assisted ageing. Acta Biomaterialia 10, 5178-5192 (2014).

5. D. Y. Cong*, S. Roth and L. Schultz: Magnetic properties and structural transformations in Ni-Co-Mn-Sn multifunctional alloys. Acta Materialia 60, 5335-5351 (2012).

6. D. Y. Cong, Y. D. Zhang, C. Esling, Y. D. Wang, J. S. Lecomte, X. Zhao and L. Zuo: Microstructural and crystallographic characteristics of interpenetrating and non-interpenetrating multiply twinned nanostructure in a Ni-Mn-Ga ferromagnetic shape memory alloy. Acta Materialia 59, 7070-7081 (2011).

7. D. Y. Cong, Y. D. Zhang, Y. D. Wang, M. Humbert, X. Zhao, T. Watanabe, L. Zuo and C. Esling: Experiment and theoretical prediction of martensitic transformation crystallography in a Ni-Mn-Ga ferromagnetic shape memory alloy. Acta Materialia 55, 4731-4740 (2007).

8. Y. H. Qu, D. Y. Cong*, Z. Chen, W. Y. Gui, X. M. Sun, S. H. Li, L. Ma and Y. D. Wang: Large and reversible inverse magnetocaloric effect in Ni48.1Co2.9Mn35.0In14.0 metamagnetic shape memory microwire. Applied Physics Letters 111, 192412 (2017).

9. X. M. Sun, D. Y. Cong*, K. -D. Liss, Y. H. Qu, L. Ma, H. L. Suo and Y. D. Wang: Origin of anomalous cryogenic magnetic behavior in a Ni-Mn-based magnetic shape memory alloy. Applied Physics Letters 110, 132402 (2017).

10. L. Huang, D. Y. Cong*, L. Ma, Z. H. Nie, Z. L. Wang, H. L. Suo, Y. Ren and Y. D. Wang: Large reversible magnetocaloric effect in a Ni-Co-Mn-In magnetic shape memory alloy. Applied Physics Letters 108, 032405 (2016).

11. Y. H. Dong, D. Y. Cong*, Z. H. Nie, Z. B. He, L. F. Li, Z. L. Wang, Y. Ren and Y. D. Wang: Stress transfer during different deformation stages in a nano-precipitate-strengthened Ni-Ti shape memory alloy. Applied Physics Letters 107, 201901 (2015).

12. L. Huang, D. Y. Cong*, H. L. Suo and Y. D. Wang: Giant magnetic refrigeration capacity near room temperature in Ni40Co10Mn40Sn10 multifunctional alloy. Applied Physics Letters 104, 132407 (2014).

13. Z. H. Nie, D. Y. Cong, D. M. Liu, Y. Ren, M. Pötschke, S. Roth and Y. D. Wang: Large internal stress-assisted twin-boundary motion in Ni2MnGa ferromagnetic shape memory alloy. Applied Physics Letters 99, 141907 (2011).

14. D. Y. Cong*, S. Roth, J. Liu, Q. Luo, M. Pötschke, C. Hürrich and L. Schultz: Superparamagnetic and superspin glass behaviors in the martensitic state of Ni43.5Co6.5Mn39Sn11 magnetic shape memory alloy. Applied Physics Letters 96, 112504 (2010).

15. D. Y. Cong*, S. Roth, J. Liu, Q. Luo, M. Pötschke, C. Hürrich and L. Schultz: Superparamagnetic and superspin glass behaviors in the martensitic state of Ni43.5Co6.5Mn39Sn11 magnetic shape memory alloy. Applied Physics Letters 96, 112504 (2010).

 

欢迎优秀研究生报考!