[1]Cong Mao,Dejia Zhang, Yongle Hu*, et al. Formation mechanisms of affected layers induced by grinding hardened AISI 52100 steel. Precision Engineering, 2024,86: 16-29, (中科院二区). [2]毛聪*,孙鹏程,唐伟东,张明军,罗源嫱,胡永乐,张德嘉,唐昆,管付如.磨削白层特性及其与声发射信号的相关性.机械工程学报,2023, 59(9): 349-359,(EI检索,机械工程领域顶级中文期刊). [3]Cong Mao, Peng Long, Weidong Tang*, et al. Simulation and experiment of electroplated grinding wheel with orderly-micro-grooves. Journal of Manufacturing Processes, 2022,79: 284-295, (中科院一区,TOP期刊). [4]Cong Mao*, Yujie Zhong, Yongle Hu**, et al. Tensile behaviors of laser-discrete-quenched substrate/nickel coating of electroplated grinding wheel. International Journal of Precision Engineering and Manufacturing-Green Technology, 2022,9(5): 1217-1229.(中科院二区). [5]Cong Mao*, Peihao Cai, Yongle Hu, et al. Effect of laser-discrete-quenching on bonding properties of electroplated grinding wheel with AISI 1045 steel substrate and nickel bond. Chinese Journal of Aeronautics, 2021,34: 79-89, (中科院一区,国内重要期刊) [6]Cong Mao*, Yuchen Zhang, Xiaoxiao Peng, et al. Wear mechanism of single cBN-WC-10Co fiber cutter in machining of Ti-6Al-4V alloy. Journal of Materials Processing Technology, 2018,259: 45-57. (中科院一区,TOP期刊). [7]Cong Mao*, Xiaoli Sun, Han Huang, et al. Characteristics and removal mechanism in laser cutting of cBN-WC-10Co composites. Journal of Materials Processing Technology, 2016,230: 42-49. (中科院一区,TOP期刊). [8]Cong Mao*, Fangjian Zhou, et al. Tribological behavior of cBN-WC-10Co composites for dry reciprocating sliding wear. Ceramics International, 2019,45: 6447-6458, (中科院二区,TOP期刊). |
[1]Cong Mao,Weidong Tang, et al. Electrochemical discharge-enabled micro-grinding process for micro-components of silicon-based materials. United States Patent,No.:US 11904400B2.美国授权发明专利. [2]Cong Mao, Zhikang Zhang, et al. Anti-agglomeration device using ultrasonic waves for a nanofluid. United States Patent,No.:US 10994249B1.美国授权发明专利. [3]Cong Mao, Yongle Hu, et al. Single-point diamond dresser for grinding wheel based on acoustic emission online monitoring. United States Patent,No.:US 10836011B2.美国授权发明专利. [4]毛聪,王佳丽,等.一种有序微槽结构超硬砂轮的压铸成型装置.中国发明专利,专利号: 202010691326.9. [5]毛聪,刘超,等.基于放射信号的有序微槽多层磨料砂轮磨损状态监测方法.中国发明专利,专利号:ZL 202010624226.4. [6]毛聪,张德嘉,等.晶体定向磨料有序排布的金刚石砂轮制备方法.中国发明专利,专利号: ZL 202010815505.9. [7]毛聪,孙鹏程,等.一种磨削表面粗糙度实时检测与智能控制系统.中国发明专利,专利号:ZL 201911224244.7. [8]毛聪,蔡培浩,等.一种磨粒预沉积TiN的电镀CBN砂轮及其制备方法.中国发明专利,专利号:ZL 201811282215.1. |