论 文 成 果 | 1. 第一作者. Work hardening mechanism based on molecular dynamics simulation in cutting Ni-Fe-Cr series of Ni-based alloy, Journal of Alloys and Compounds, 2020, 819. (SCI, IF=4.175) 2. 通讯作者. Diffusion mechanism of tools and simulation in nanoscale cutting the Ni–Fe–Cr series of Nickel-based superalloy, International Journal of Mechanical Sciences, 2019, 150:625-636. (SCI, IF=4.134) 3. 通讯作者. Study on constitutive model and deformation mechanism in high speed cutting Inconel718, Archives of Civil and Mechanical Engineering, 2019, 19(2):439-452. (SCI, IF=2.846) 4. 通讯作者. Failure feature and characterization of material of shear band in cutting Inconel718, Journal of Manufacturing Processes, 2019, 45:154–165. (SCI, IF=3.462) 5. 第一作者. Research on tool wear based on multi-scale simulation in high speed cutting Inconel718. Archives of Civil and Mechanical Engineering, 2018, 18(3): 928-940. (SCI, IF=2.846) 6. 第一作者. Surface residual stress in high speed cutting of superalloy Inconel718 based on multiscale simulation. Journal of Manufacturing Processes, 2018, 31: 480-493 (SCI, IF=3.462) 7. 第一作者. Research of plastic behavior in high-speed cutting Inconel718 based on multi-scale simulation. International Journal of Advanced Manufacturing Technology, 2018, 94: 3731-3739. (SCI, IF=2.496) 8. 通讯作者. Formation mechanism and characterization of shear band in high-speed cutting Inconel718. International Journal of Advanced Manufacturing Technology, 2018, 98: 2791-2799. (SCI, IF=2.496) 9. 第一作者. Tribological characteristics and wear mechanism of cemented carbide tool in dry machining Ti-6Al-4V. Int. J. Materials and Product Technology, 2017, 54: 275-290. (SCI, IF=0.674)10. 第一作者. 基于多尺度仿真的Inconel718切削过程研究. 制造技术与机床,2017 (9):114-117,. 11. 通讯作者Flow characteristics and constitutive equations of flow stress in high speed cutting Alloy 718, Journal of Alloys and Compounds, 2017, 728: 854-862. (SCI, IF=4.175) |
