一、文章
[1] Lv Dongxi; Chen Mingda; Yao Youqiang; et al. High-frequency vibration effects on the hole integrity in rotary ultrasonic drilling of carbon fiber-reinforced plastic composites[J]. Ultrasonics, 2021, 115: 106448.
[2] Lv Dongxi; Liu Dong; Chen Gang; et al. Formation mechanisms of exit-chippings in rotary ultrasonic drilling and conventional drilling of glass BK7, Journal of Manufacturing Science and Engineering, 2020, 142(1): 011004-1-12.
[3] Lv Dongxi; Yan Chun; Chen Gang; et al. Mechanistic prediction for cutting force in rotary ultrasonic machining of BK7 glass based on probability statistics, Ultrasonics, 2020, 101: 106006.
[4] Lv Dongxi; Chen Mingda; Yao Youqiang; et al. Prediction of subsurface damage depth in rotary ultrasonic machining of glass BK7 with probability statistics, The International Journal of Advanced Manufacturing Technology, 2020, 107(5-6): 1337-1344.
[5] Lv Dongxi; Liu Dong; Chen Gang; et al. Quantitative evaluation method and formation mechanisms of entrance chipping in rotary ultrasonic drilling of glass BK7, Machining Science and Technology, 2020, 24(1): 151-167.
[6] Lv Dongxi; Zhang Yuanming*; Numerical simulation of chipping formation process with smooth particle hydrodynamic (SPH) method for diamond drilling AIN ceramics, The International Journal of Advanced Manufacturing Technology, 2018, 96(5-8): 2257-2269.
[7] Lv Dongxi*; Zhang Yuanming; Peng Yunfeng. High-frequency vibration effects on hole entrance chipping in rotary ultrasonic drilling of BK7 glass, Ultrasonics, 2016, 72: 47-56.
[8] Lv Dongxi*; Wang Hongxiang; Zhang Wenwu; et al. Subsurface damage depth and distribution in rotary ultrasonic machining and conventional grinding of glass BK7, The International Journal of Advanced Manufacturing Technology, 2016, 86(9): 2361-2371.
[9] Lv Dongxi*; Influences of high-frequency vibration on tool wear in rotary ultrasonic machining of glass BK7, The International Journal of Advanced Manufacturing Technology, 2015, 84(5): 1443-1455.
[10] 吕东喜; 陈刚; 赵德刚; 等. 硬脆材料孔加工出口破损形成机理[J]. 光学 精密工程, 2021, 29(1): 109-116.
[11] 吕东喜; 陈明达; 姚友强; 等. 基于概率统计的BK7 玻璃磨削亚表层损伤深度在线预测技术, 光学 精密工程, 2020, 28(1): 102-109.
[12] 吕东喜*; 张远明; 沈圣成. 玻璃孔加工入口破损形成机理, 华南理工大学学报, 2018, 46(7): 79-84.
二、专利
1.吕东喜; 祝颖丹; 陈明达; 姚友强. 车用硬脆材料旋转超声加工亚表层损伤深度在线预测方法. 2019.10.17, 中国, ZL201910985938.6. (已授权)
2.吕东喜; 祝颖丹; 姚友强; 陈明达. 一种车用硬脆材料旋转超声孔加工出口破损宽度预测方法. 2020.06.10, 中国, ZL202010522701.7. (已授权)
3.吕东喜; 祝颖丹; 陈明达; 姚友强. 一种汽车用硬脆材料三维变参数旋转超声磨削加工装置. 发明专利. 申请号:CN201911201190.2
4.沈圣成; 张远明; 吕东喜. 一种连续碳纤维3D打印装置. 发明专利. 申请号:CN201710253528.3
5.祝颖丹; 张洪生; 陈明达; 吕东喜; 冯雄峰; 刘东; 陈刚. 一种连续树脂纤维增材制造的执行头装置. 发明专利. 申请号: CN202011607159.1
6.宋磊磊; 祝颖丹; 姚友强; 吕东喜. 一种车用金属内衬编织复合材料及其制备方法和应用. 发明专利. 申请号:CN201910032449.9
7.阮亮; 张远明; 叶纪林; 吕东喜. 一种激光选区熔化快速预热铺粉装置. 发明专利. 申请号:CN201810090776.5
8.阮亮; 朱雪岩; 张焱; 王怀春; 张远明; 吕东喜. 一种用于激光选区熔化设备的粉末快速预热方法和装置. 发明专利. 申请号: CN201810238921.X