一、科研项目: 1.基于剪切增稠效应的薄壁件铣削减振机理研究,国家自然科学基金(2022-2024年),主持; 2.基于多样本直接比较效应的圆锥滚子微切削机理与精度演化规律研究,国家自然基金面上项目(2022-2025年),参与。 二、代表性论著: (1)Wang S ; He C ; Wang Z ; Yan J ; Subsurface amorphization-induced ultrasmooth and ultrahardsurface during the diamond turning of polycrystalline pure copper, Materials&Design, 2025, 249: 1-22(中科院2区Top;第一作者) (2)Wang S ; Gao J ; Zhang W; Zhen Z ; He C ; Low-speed impact characteristics of shear thickening fluids: theoretical prediction model and experimental verification, Colloid and Polymer Science, 2025, 303: 589-607.(SCI;第一作者) (3)Wang S ; Gao D ; Zhang W; Xu X ; He C ; A novel investigation of shear thickening fluids under continuous high-frequency impact, Proceedings of The Institution of Mechanical Engineers Part C-journal of Mechanical Engineering Science, 2025.春季(SCI;第一作者) (4)Wang S ; Zhang W; Gao J ; Gao D ; He C ; Characteristics of shear thickening fluid and its application in engineering: a state-of-the-art review, The International Journal of Advanced Manufacturing Technology, 2024, 133: 1973-2000(SCI;第一作者) (5)He C; Zhang J; Ren C; Wang S; Cao Z. Characteristics of cutting force and surface finish in diamond turning of polycrystalline copper achieved by friction stir processing (FSP), Journal of Materials Processing Technology, 2022, 301: 117451(中科院1区Top;通讯作者) (6)Wang S; He C; Cao Z; Machining distortion in the milling of multi-frame components, Journal of Manufacturing Processes 68, 2021,1158-1175.(中科院1区Top;第一作者) (7)Wang S ; He C ; Li J ; Wang J ; Vibration-free surface finish in the milling of a thin-walled cavity part using a corn starch suspension, Journal of Materials Processing Technology, 2020, 290(中科院2区Top;第一作者) 三、授权专利: 四、荣誉奖励: |