张瑞丰

职称职务:教授
所在单位:材料科学系
专业方向代码:0
联系电话:010-82315007
电子邮箱:zrf@buaa.edu.cn 或 zrfbuaa@gmail.com
办公地点:北京市海淀区学院路37号北京航空航天大学新主楼H座10层1003房间

 

基本情况

现任北京航空航天大学材料学院“卓越百人计划”特聘教授,中组部“青年千人计划”获得者。2013年担任美国爱荷华州立大学材料系研究助理教授(Faculty);2009年获得美国洛斯阿拉莫斯国家实验室“院长奖博士后研究员”荣誉(比例6/300);2005年获得德国洪堡基金会“洪堡学者”荣誉;2005年获得清华大学“优秀博士论文一等奖”和“优秀博士毕业生”称号。 办公地址:北京市海淀区学院路37号北京航空航天大学新主楼H座10层1003房间,邮编100191



主讲课程

 



研究方向

硬质和超硬材料;金属基纳米复合材料;界面物理和力学;材料理论、模拟和计算



研究成果

主要围绕材料“结构与性能”关系,在硬质和超硬材料、金属基纳米复合材料等领域展开深入系统研究。迄今发表学术论文70篇(第一作者45篇),被SCI引用900多次,H因子=18,学术报告20余次。其中包括2篇Phys. Rev. Lett., 13篇Phys. Rev. B,6篇Appl. Phys. Lett.,9篇Acta Mater.,1篇Inter. J. Plasticity,1篇Chem. Mater.,1篇J. Phys. Chem. B等。部分代表性论文如下: • R. F. Zhang, D. Legut, Z. J. Lin, Y. S. Zhao, H. K. Mao, and S. Veprek. Stability and strength of transition-metal tetraborides and triborides, Physical Review Letters 108, 255502 (2012). • R. F. Zhang, A. S. Argon and S. Veprek. Friedel Oscillations are Limiting the Strength of Superhard Nanocomposites and Heterostructures. Physical Review Letters 102, 015503 (2009). • R. F. Zhang, Z. J. Lin, H. K. Mao, and Y. S. Zhao. Thermodynamic stability and unusual strength of ultraincompressible rhenium nitrides, Physical Review B 83, 060101 (R) (2011). • J. Wang, R. F. Zhang, C. Zhou, I. J. Beyerlein and A. Misra, Interface dislocation patterns and dislocation nucleation in face-centered-cubic and body-centered-cubic bicrystal interfaces, International Journal of Plasticity 53, 40 (2014). • I. J. Beyerlein, J. Wang and R. F. Zhang. Mapping dislocation nucleation behavior from bimetal interfaces, Acta Materialia 61, 7488 (2013). • S. H. Sheng, R. F. Zhang and S. Veprek. Decomposition mechanism of AlxSiyNz solid solutions and possible mechanism of formation of covalent nc-AlN/ Si3N4 nanocomposites, Acta Materialia 61, 4226 (2013). • R. F. Zhang, S. H. Sheng, and S. Veprek. Origin of different plastic resistance of transition metal nitrides and carbides: stiffer yet softer, Scripta Materialia 68, 913 (2013). • S. H. Sheng, R. F. Zhang and S. Veprek. P Decomposition mechanism of AlxSiyNz solid solutions and possible mechanism of formation of covalent nc-AlN/ Si3N4 nanocomposites, Acta Materialia 61, 4226 (2013). • R. F. Zhang, T. C. Germann, J. Wang, X. Y. Liu, and I. J. Beyerlein. Role of interface structure on the plastic response of Cu/Nb nanolaminates under shock compression: Non-equilibrium molecular dynamics simulations, Scripta Materialia 68, 114 (2013). • S. M. Wang, X. H. Yu, Z. J. Lin, R. F. Zhang, D. W. He, J. Q. Qin, J. L. Zhu, J. T. Han, L. Wang, H. K. Mao, J. Z. Zhang, and Y. S. Zhao. Synthesis, crystal structure, and elastic properties of novel tungsten nitrides, Chemistry of Materials 24, 3023 (2012). • R. F. Zhang, J. Wang, I. J. Beyerlein, A. Misra, and T. C. Germann. Atomic-scale study of nucleation of dislocations from fcc/bcc interfaces, Acta Materialia 60, 2855 (2012). • R. F. Zhang, J. Wang, I. J. Beyerlein, and T. C. Germann. Dislocation nucleation mechanisms from fcc/bcc incoherent interfaces, Scripta Materialia 65, 1022 (2011). • R. F. Zhang, Z. J. Lin, and S. Veprek. Anisotropic ideal strengths of superhard monoclinic and tetragonal carbon and their electronic origin, Physical Review B 83, 155452 (2011). • S. H. Sheng, R. F. Zhang and S. Veprek. Study of spinodal decomposition and formation of nc-Al2O3/ZrO2 nanocomposites by combined ab initio density functional theory and thermodynamic modeling, Acta Materialia 59, 3498 (2011). • R. F. Zhang, Z. J. Lin, Y. S. Zhao, and S. Veprek. Superhard materials with low elastic moduli: Three-dimensional covalent bonding as the origin of superhardness in B6O, Physical Review B 83, 092101 (2011). • S. H. Sheng, R. F. Zhang and S. Veprek. Phase stabilities and decomposition mechanism in the Zr-Si-N system studied by combined ab initio DFT and thermodynamic calculation, Acta Materialia 59, 297 (2011). • R. F. Zhang, D. Legut, R. Niewa, A. S. Argon and S. Veprek. Shear-induced structural transformation and plasticity in ultra-incompressible ReB2 limit its hardness, Physical Review B 82, 104104 (2010). • R. F. Zhang, A. S. Argon and S. Veprek. Understanding why the thinnest SiNx interface in transition metal nitrides is stronger than ideal, bulk crystal, Physical Review B 81, 245418 (2010). • R. F. Zhang, S. Veprek and A. S. Argon. Effect of nanometer-sized grains on the superhardness of c-BC5: A first-principles study, Physical Review B 80, 233401 (2009). • R. F. Zhang, A. S. Argon, and S. Veprek. Electronic Structure, Stability, and Mechanism of the De-Cohesion and Shear of Interfaces in Superhard Nanocomposites and Heterostructures, Physical Review B 79, 245426 (2009). • R. F. Zhang, S. H. Sheng and S. Veprek. On the anisotropic shear resistance of hard transition metal nitrides TMN (TM = Ti,Zr,Hf), Applied Physics Letters 94, 121903 (2009). • R. F. Zhang and S. Veprek. Deformation paths and atomistic mechanism of B4->B1 phase transformation in aluminium nitride, Acta Materialia 57, 2259 (2009). • R. F. Zhang, S. Veprek and A. S. Argon. Anisotropic ideal strengths and chemical bonding of wurtzite BN in comparison to zincblende BN. Physical Review B 77, 172103 (2008). • S. H. Sheng, R. F. Zhang and S. Veprek. Phase stabilities and thermal decomposition in Zr1-xAlxN system studied by ab initio calculation and thermodynamic modeling, Acta Materialia 56, 968 (2008). • R. F. Zhang, S. H. Sheng and S. Veprek. Stability of Ti-B-N solid solutions and the formation of nc-TiN/a-BN nanocomposites studied by combined ab initio and thermodynamic calculations. Acta Materialia 56, 4440 (2008). • R. F. Zhang, S. Veprek and A. S. Argon. Mechanical and electronic properties of hard rhenium diboride of low elastic compressibility studied by first-principles calculation. Applied Physics Letters 91, 201914 (2007). • R. F. Zhang and S. Veprek. Crystalline-to-amorphous transition in Ti1-xSixN solid solution system and stability of fcc SiN studied by combined ab initio density functional theory and thermodynamic calculations, Physical Review B 76, 174105 (2007). • R. F. Zhang, S. H. Sheng and S. Veprek. Mechanism of the B3 to B1 transformation in cubic AlN under uniaxial stress. Physical Review B 76, 075208 (2007). • R. F. Zhang, S. H. Sheng and S. Veprek. First principles studies of ideal strength and bonding nature of AlN polymorphs in comparison to TiN. Applied Physics Letters 91, 031906 (2007). • R. F. Zhang and S. Veprek. Phase stabilities and spinodal decomposition in Cr1-xAlxN system studied by ab initio LDA and thermodynamic modeling: Comparison with Ti1-xAlxN and TiN/Si3N4system. Acta Materialia 55, 4615 (2007). • R. F. Zhang, S. H. Sheng and S. Veprek. Mechanical strengths of silicon nitrides studied by ab initio calculations. Applied Physics Letters 90, 191903 (2007). • R. F. Zhang, H. F. Yan, Y. X. Shen and B. X. Liu. Formation of amorphous alloys by ion beam mixing and its multi-scale theoretical modeling in the equilibrium immiscible Sc-W system. Journal of Physical Chemistry B 109, 4391 (2005). • R. F. Zhang, Y. Kong and B. X. Liu. Construction of n-body potentials of the hcp-bcc metal systems under the framework of embedded atom method. Physical Review B 71, 214102 (2005). • L. T. Kong, R. F. Zhang, Z. C. Li and B. X. Liu. Magnetic moments of Co and Co-Ag alloys in equilibrium/nonequilibrium structures studied by ab initio calculations. Physical Review B 68, 13446 (2003). • R. F. Zhang and B. X. Liu. Proposed model for calculating the standard formation enthalpy of binary transition-metal systems. Applied Physics Letters 81, 1219 (2002).