代表性论文: |
论文: [1]Yong sun, Guohe Li, Zhen He, Xiangcheng Kong.The advance of research on constitutive model used in fifinite element simulation of metal cutting. Proc IMechE Part C: J Mechanical Engineering Science(SCI 3区,影响因子1.758), 2022, 236(9): 4921–4945 [2]Li Guohe, Liu Meng, Zhao Shanshan. Reduced computational time in 3D finite element simulation of high speed milling of 6061-T6 aluminum alloy, Machining Science and Technology(SCI 2区,影响因子2.25), 2021,25(4): 558-584 [3]Guohe Li, Yujun Cai, Houjun Qi, Meng Liu, Xiaole Qi. Research on the evolution of serrated chips in high speed cutting based on digital microscope, MACHINING SCIENCE AND TECHNOLOGY(SCI 2区,影响因子2.25), 2020, 25(6): 1-19 [4]Li G H, Smith J, Wing Kam Liu. Finite element simulation of saw-tooth chip in high-speed machining based on multiresolution continuum theory, The International Journal of Advanced Manufacturing Technology(SCI 2区,影响因子2.601), 2019, 101(5-8): 1759-1772 [5]Guohe Li, Jiaying Gao, Orion L, Kafka, Jacob Smith, Wing Kam Liu. Implementation and application of the multiresolution continuum theory. Computational Mechanics(SCI 1区,影响因子3.006), 2019, 63: 631–647 [6]Guohe Li, Yujun Cai, Houjun Qi. Prediction of the critical cutting conditions of serrated chip in high speed machining based on linear stability analysis. International Journal of Advanced Manufacturing Technology (SCI 2区,影响因子2.601), 2018, 94(1-4): 1119-1129 [7]Guohe Li, Yujun Cai, Houjun Qi, Meng Liu. Modelling of the Relationship of Adiabatic Shear and Cutting Conditions for Higher Cutting Speed Ranges. Strojniški vestnik - Journal of Mechanical Engineering(SCI 3区,影响因子1.182), 2017, 63(11): 673-682. [8]李国和, 戚厚军, 蔡玉俊. 考虑硬度的材料动态塑性本构关系模型, 塑性工程学报, 2015, (1): 72- 75+81. [9]李国和, 戚厚军, 蔡玉俊. 正交切削第一变形区温度分布的研究. 现代制造工程, 2015, (12): 1-5. [10]姚辉, 李国和, 李文珍. 铝合金铣削加工三维有限元模拟研究. 现代制造工程, 2017, (6): 99-103 [11]李国和, 王敏杰, 段春争. 正交切削淬硬45钢绝热剪切临界条件的实验研究. 大连理工大学学报. 2011, 51(4): 518-524 (EI检索) [12]李国和, 王敏杰. 淬硬45钢(45HRC)在高温、高应变率下的动态力学性能及其本构关系.爆炸与冲击, 2010, 30(4). 433-438 (EI检索) [13]李国和, 王敏杰, 康仁科. Fe-36Ni因瓦合金的动态力学性能及其本构关系.材料科学与工艺, 2010, 18(6): 378-383 (EI检索) [14] Li G H, Wang M J, Duan, C. Z.. Adiabatic shear critical condition in high-speed cutting. Journal of Materials Processing Technology, 2009, 209(3): 1362-1367 (SCI检索,EI检索) [15]李国和, 王敏杰, 段春争. 基于ANSYS-LSDYNA 进行金属切削过程的有限元模拟. 农业机械学报, 2007, 38(2):173-176 (EI检索) |
专利: |
专利: [1]发明专利: 一种爆炸式高速切削实验,中国, ZL201110308593.4, 2015.6.17, 排名第1 [2]实用新型: 一种基于3D打印的分体式外圆车刀刀具角度教具, 中国, ZL201720000552.1, 2017.12.1, 排名第1 [3]实用新型: 一种便携式快速磨样装置, 中国, ZL201720000542.8, 2017.8.8, 排名第1 [4]实用新型: 一种径向可调三爪自定心芯轴夹具, 中国, ZL201721370920.8, 2018.7.31,排名第1 [5]实用新型: 一种薄板试件钻孔快速装夹装置, 中国, ZL201721370933.5, 2018.8.7, 排名第1 [6]实用新型:一种基于3D打印的圆体成形车刀教具,中国,ZL201821555655.5, 2020.12.20, 排名第1 [7]实用新型:一种基于3D打印的CA6140主轴箱教具,中国,ZL201821555657.4, 2020.12.20, 排名第1 [8]实用新型:一种基于3D打印的上压式可转位车刀教具,中国,ZL201821555656.X, 2020.12.20, 排名第1 |
