任小平
-
工程师
- 性别:女
- 毕业院校:山东大学
- 学历:研究生(博士)毕业
- 学位:博士生
- 在职信息:在职
- 所在单位:山东大学机械工程学院
- 入职时间: 2010-07-16
- 办公地点:千佛山校区西配楼
- 联系方式:renxiaoping@sdu.edu.cn
访问量:
-
[21]
任小平 , 刘战强 and 万熠.
Time Molding in Rough Milling of Circula.
Materials science forum,
723,
87,
2012.
-
[22]
任小平 , 刘战强 and 万熠.
混合推理在难加工材料切削数据库系统的应用.
《工具技术》,
45,
35,
2011.
-
[23]
任小平 , 刘战强 and 万熠.
A computer-based intelligent system for automatic tool selection.
Materials science forum,
723,
238,
2012.
-
[24]
刘战强 and 任小平.
Hybrid modeling with finite element analysis and statistical method for residual stress prediction i.
International Journal of Mechanical Sciences,
2016.
-
[25]
任小平 and 刘战强.
Influence of cutting parameters on work hardening behavior of surface layer during turning superallo.
The International Journal of Advanced Manufacturing Technology,
2016.
-
[26]
任小平 and 刘战强.
基于MATLAB Web Server和ASP.NET技术远程切削参数优化方法.
《机械设计与制造》,
0,
85,
2011.
-
[27]
任小平 and 刘战强.
Hybrid modeling with finite element analysis and statistical method for residual stress prediction i.
International Journal of Mechanical Sciences,
2016.
-
[28]
任小平 and 刘战强.
Hybrid modeling with finite element analysis and statistical method for residual stress prediction i.
International Journal of Mechanical Sciences,
2016.
-
[29]
任小平 and 刘战强.
基于MATLAB Web Server和ASP.NET技术远程切削参数优化方法.
《机械设计与制造》,
0,
85,
2011.
-
[30]
刘战强 , 万熠 and 任小平.
混合推理在难加工材料切削数据库系统的应用.
《工具技术》,
45,
35,
2011.
-
[31]
刘战强 and 任小平.
Influence of cutting parameters on work hardening behavior of surface layer during turning superallo.
The International Journal of Advanced Manufacturing Technology,
2016.
-
[32]
任小平.
Investigation of power consumption in face milling operations.
Materials science forum,
2014.
-
[33]
刘战强 , 万熠 and 任小平.
A computer-based intelligent system for automatic tool selection.
Materials science forum,
723,
238,
2012.
-
[34]
刘战强 , 万熠 and 任小平.
Time Molding in Rough Milling of Circula.
Materials science forum,
723,
87,
2012.
-
[35]
刘战强 and 任小平.
A simulation model for predicting surface integrity coupled thermal-mechanical effect in turning of .
The International Journal of Advanced Manufacturing Technology.,
100,
1825,
2019.