负责的项目： [1]切削SiCp/Al复合材料脆韧转变机理及断裂动力学预测研究, 国家自然科学基金面上项目 [2] 高速干硬切削表面变质层微结构形成机理及有限元-元胞自动机耦合模拟与预测研究， 国家自然科学基金面上项目 [3] 高速硬切削主剪切区材料失稳及损伤断裂微观机理研究，国家自然科学基金面上项目 [4] 辽宁省百千万人才工程资助项目，高速干切削界面摩擦变形区的微观变质机理及其演变规律研究 [5] 辽宁省百千万人才工程资助项目，高速钢刀具周期式循环深冷处理新工艺及材料强韧化微观机理的研究 ᠦ୔

论文成果：以第一作者或通讯作者发表SCI论文20余篇，EI收录50余篇，SCI论文累计他引200余次。部分SCI论文如下： [1]Chunzheng Duan, Minjie Wang. Adiabatic Shear Bands in 30CrNi3MoV Structural Steel Induced during High Speed Cutting, Journal of Materials Science & Technology, 2004, Vol.20, n6, 775-778（影响因子1.8，JCR-2区） [2]C.Z.Duan, M.J.Wang. Characteristics of Adiabatic Shear Bands in the Orthogonal Cutting 30CrNi3MoV Steel, Journal of Materials Processing Technology, 2005, Vol.168, 102-106.（影响因子3.6，JCR-1区） [3]Chunzheng Duan, Minjie Wang. Some Metallurgical Aspects in Chips Formed in High Speed Cutting of High Strength Steel, Scripta Materialia, 2005, Vol.52, 1001-1004. （影响因子3.3，JCR-1区） [4]C.Z.Duan, M.J.Wang. A Calculation Model of Deformation within Shear Band in a Serrated Chip Formed during High Speed Machining, Journal of Materials Processing Technology, 2006, Vol.178, 274-277.（影响因子3.6，JCR-1区 ） [5]Guohe Li, Minjie Wang, Chunzheng Duan . Adiabatic shear critical condition in the high-speed cutting, Journal of Materials Processing Technology, 2009, Vol.209, 1362-1367（影响因子3.6，JCR-1区） [6]Duan C.Z., Cai Y.J., Wang M.J., Li G.H, Microstructural study of adiabatic shear bands formed in serrated chips during high-speed machining of hardened steel, Journal of Materials Science, 2009, Vol.44, 897-902（影响因子2.99, JCR-1区） [7]Chunzheng Duan, Haiyang Yu, Honghua Li, Minjie Wang, Some Metallurgical Observations of Adiabatic Shear Phenomenon During High Speed Machining AISI 1045 Hardened Steel, Advanced Science Letters, 2011, Vol.4, n 6-7, 2493–2497 （影响因子：1.25, JCR-2区） [8]Duan C.Z, Wang M.J, Cai Y.J, Dou T, Microcosmic mechanism of material softening and fracture in primary shear zone during high speed machining of hardened steel, Materials Science and Technology, 2011, Vol.27, n3, 625-630（影响因子：1.0，JCR-2区） [9]C.Z.Duan, L.C.Zhang. Adiabatic shear banding in AISI 1045 steel during high speed machining: Mechanisms of microstructural evolution, Materials Science and Engineering A, 2012, Vol.532,111-119（影响因子：2.9, JCR-1区） [10]Gu Liyao, Wang Jinjie, Duan Chunzheng. On adiabatic shear localized fracture during serrated chip evolution in high speed machining of hardened AISI 1045 steel, International Journal of Mechanical Sciences, 2013,Vol. 75, 288-298 （影响因子2.3, JCR-2区 ） [11] Chunzheng Duan, Minjie Wang, A Review of Microstructural Evolution in the Adiabatic Shear Bands Induced by High Speed Machining, Acta Metallurgica Sinica (English Letters), 2013, Vol.26, n2, 97-112 （影响因子:1.34, JCR-3区） [12] Chunzheng Duan , Liangchi Zhang. A reliable method for predicting serrated chip formation in high-speed: analysis and experimental verification, International Journal of Advanced Manufacturing Technology, 2013, Vol.64, n9-12, 1587–1597（影响因子：2.6, JCR-2区） [13] Chunzheng Duan, Weisen Kong, Qinglong Hao，Feng Zhou. Modeling of white layer thickness in high speed machining of hardened steel based on phase transformation mechanism. International Journal of Advanced Manufacturing Technology, 2013, Vol.69, n1-4, 59-70 (影响因子：2.6，JCR-2区) [14]Duan Chunzheng, Wang Minjie. Microstructure and mechanism of adiabatic shear fracture during serrated chip formation of hard machining, Journal of Advanced Mechanical Design, Systems and Manufacturing, 2014, Vol.8, n6, 1-12（影响因子：0.54，JCR-4区） [15]Chunzheng Duan, Qinglong Hao. Surface roughness prediction of end milling process based on IPSO-LSSVM, Journal of Advanced Mechanical Design, Systems and Manufacturing, 2014, Vol.8, n3, 1-11（影响因子：0.54，JCR-4区，他引1次） [16]Duan Chunzheng, Zhou Feng, Jiang Kaiyu, Yu Tongmin, Molecular dynamics simulation of planar Poiseuille flow for polymer melts in atomically flat nanoscale channel, International Journal of Heat and Mass Transfer, 2015, Vol.91, 1088-1100（影响因子3.95, JCR-1区） [17] Zhang Fang-yuan,Duan Chun-zheng*, Xu Xin-xin, Wang Min-jie. Influence of cutting condition on white layer inducedby high speed machining of hardened steel, International Journal of Advanced Manufacturing Technology, 2018, Vol. 98, 77-84(影响因子：2.6，JCR 2区) [18]Zhang Fang-yuan, Duan Chun-zheng*, Wang Min-jie, Sun WeiWhite and dark layer formation mechanism in hard cutting of AISI52100 steel,Journal of Manufacturing Processes,2018, Vol.32,878-887(影响因子：2.81，JCR 1区) [19]Chunzheng DUAN, Fangyuan ZHANG, Wei SUN, Xinxin XU, Minjie WANG, White layer formation mechanism in dry turning hardened steel, Journal of Advanced Mechanical Design, Systems, and Manufacturing, 2018, Vol12,n2, 1-11(影响因子：0.54，JCR 4区) [20]Chunzheng Duan, Wei SUN, Zhan FENG,Fangyuan ZHANG. Defects formation mechanism and evaluation of surface roughness in machining Al/SiCp composites. Journal of Advanced Mechanical Design, Systems, and Manufacturing, 2018, Vol12,n1, 1-11(影响因子： 0.54，JCR 4区) [21]Duan C Z, Zhang F Y, Qin S W, Sun W, Wang M J. Modeling of dynamic recrystallization in white layer in dry hard cutting by finite elementcellular automaton method. Journal of Mechanical Science and Technology,2018, Vol.32, n9, 4299-4312 (影响因子：1.28，JCR 3区) [22]Duan C Z, Sun W, Fu C, Zhang F Y.Modeling and simulation of tool-chip interface friction in cutting Al/SiCp composites based on a three-phase friction model.International Journal of Mechanical Sciences, 2018,Vol.142, 384-396 (影响因子：3.62，JCR 1区) [23] Zhang Fangyuan,Duan Chunzheng*,Sun Wei, Ju Kang. Effects of cutting conditions on the microstructure and residual stress of white and dark layers in cutting hardened steel, Journal of Materials Processing Technology, 2019, Vol 266, 599-611 (影响因子：3.6，JCR 1区)

授权专利成果： [1] 一种钢制工件的深冷处理工艺，中国发明专利，ZL01131772.8, 2004 [2] 铜合金带材的深冷处理工艺，中国发明专利，ZL01131759.0, 2004 [3] 一种高速钢刀具的深冷处理方法，中国发明专利，ZL10046799.9, 2008 [4]一种车床快速落刀装置. 中国发明专利. 201710812023.6，2018 [5]一种用于端面车削温度测量的装置与方法.中国发明专利, 201710145432.5, 2019