| 1. | Numerical simulation of inner surface magnetic abrasive finishing
物流管道内表面磁力研磨的数值仿真 |
| 2. | Field distribution is a important factor in magnetic abrasive finishing
磁场分布是影响磁力研磨加工的一个重要因素。 |
| 3. | Magnetic abrasive finishing is one of applications of magnetic field in manufacturing field
磁力研磨是磁场在加工领域的应用之一。 |
| 4. | Put forward a new kind of polishing method which compounded ultrasonic vibration with magnetic abrasive finishing ( maf ) process
摘要提出将超声振动附加于磁粒研磨过程中的思想。 |
| 5. | In this paper , computer simulation is adopted to study the field distribution and other effect factors of magnetic abrasive finishing
本文通过计算机仿真的方法对磁力研磨加工中的磁场分布和一些影响因素进行了研究。 |
| 6. | The research work of this paper is computer simulation and system design of inner finishing by magnetic abrasive finishing using rotating magnetic field
本文对内圆表面的旋转磁场磁力研磨加工进行了计算机仿真和系统设计。 |
| 7. | Finite element method is presented to establish a mathematical model of magnetic abrasive finishing in this paper , and simulation software has also been programmed . on the basis of the computer simulation of ns structure rotating magnetic field , some conclusion has been reached
本文用有限元法建立一个磁力研磨加工的数学模型,对仿真软件进行了编制,并对ns磁极结构的旋转磁场进行了仿真计算,得到了一些结论。 |
| 8. | The major advantage compared with the traditional finishing methods is that magnetic abrasive does not need any support and its shape can be modified by the surface of work piece , which determines that magnetic abrasive finishing can be used to finish all complex surface , including inner surface
磁力研磨加工与传统的研磨方法的根本区别在于磁性磨料不需要支架的支撑,而且磁性磨料能够随着工件形状的变化而变化,因而适合于加工包括内圆在内的各种复杂曲面。 |
| 9. | It is tested that the most proficiency method is using pulse - controlled magnet core to generate rotating magnetic field , in which the density and frequency of rotating field can be adjusted , the different form of rotating field can be easily achieved , and both magnetic pole and work piece need not rotate during the magnetic abrasive finishing process
实践证明,最有效的方法是脉冲控制电磁线圈的方法产生。这种类型旋转磁场的强度和磁场的旋转频率都可以得到调节,磁场的不同旋转形式也很容易实现,而且在研磨加工过程中工件和磁极都无需旋转。 |
