朱烨均

职 称

讲师

系别

机械工程系

学 位

博士

电话

15250952212

E-mail

yjzhu@njau.edu.cn

单位地址

南京市浦口区点将台路40号

邮编

210031

研究领域

摩擦磨损，精密加工

社会兼职

无

承担项目

无

学术成果

近期主要论文：

1. Yejun Zhu, Wenfeng Ding, Zhiwen Rao, Zhengcai Zhao. Self-sharpening ability of monolayer brazed polycrystalline CBN grinding wheel during high-speed grinding. Ceramics International, 2019, 45(18): 24078-24089.（SCI，IF 3.45）

2. Yejun Zhu, Wenfeng Ding, Zhiwen Rao, Changyong Yang. Micro-fracture mechanism of polycrystalline CBN grain during single grain scratching tests based on fractal dimension analysis. Precision Engineering, 2019, 59: 26-36.（SCI，IF 2.685）

3. Yejun Zhu, Wenfeng Ding, Zhiwen Rao, Yucan Fu. Effect of grinding wheel speed on self-sharpening ability of PCBN grain during grinding of nickel-based superalloys with a constant undeformed chip thickness. Wear, 2019, 426-427: 1573-1583.（SCI，IF 2.95）

4. Yang Cao,Yejun Zhu, Hao Nan Li, Chenxi Wang, Honghua Su, Zhen Yin, Development and performance of a novel ultrasonic vibration plate sonotrode for grinding, Journal of Manufacturing Processes, 2020, 57: 174-186.（SCI，IF 3.462，共同一作）

5. Bo Qiu,Yejun Zhu, Wenfeng Ding. An investigation on materials removal mechanism in ultra-high speed grinding of nickel-based superalloy: three-dimensional simulation and experimental verification. International Journal of Advanced Manufacturing Technology. 2020.（SCI，IF 2.496，共同一作）

奖励荣誉

无

Title

Assistant Professor

Department

Department of mechanical engineering

Degree

Ph. D.

Telephone

15250952212

E-mail

yjzhu@njau.edu.cn

Unit address

No. 40, Dianjiangtai Road

Post code

210031

Research field

High precision manufacturing technology, frictional wear technology

Social appointments

None

Research projects

None

Academic achievements

1. Yejun Zhu, Wenfeng Ding, Zhiwen Rao, Zhengcai Zhao. Self-sharpening ability of monolayer brazed polycrystalline CBN grinding wheel during high-speed grinding. Ceramics International, 2019, 45(18): 24078-24089. (SCI, IF 3.45)

2. Yejun Zhu, Wenfeng Ding, Zhiwen Rao, Changyong Yang. Micro-fracture mechanism of polycrystalline CBN grain during single grain scratching tests based on fractal dimension analysis. Precision Engineering, 2019, 59: 26-36. (SCI, IF 2.685)

3. Yejun Zhu, Wenfeng Ding, Zhiwen Rao, Yucan Fu. Effect of grinding wheel speed on self-sharpening ability of PCBN grain during grinding of nickel-based superalloys with a constant undeformed chip thickness. Wear, 2019, 426-427: 1573-1583. (SCI, IF 2.95)

4. Yang Cao,Yejun Zhu, Hao Nan Li, Chenxi Wang, Honghua Su, Zhen Yin, Development and performance of a novel ultrasonic vibration plate sonotrode for grinding, Journal of Manufacturing Processes, 2020, 57: 174-186. (SCI, IF 3.462)

5. Bo Qiu,Yejun Zhu, Wenfeng Ding. An investigation on materials removal mechanism in ultra-high speed grinding of nickel-based superalloy: three-dimensional simulation and experimental verification. International Journal of Advanced Manufacturing Technology. 2020. (SCI, IF 2.496)

Reward & honor

None