数控切削加工工艺参数是数控切削加工过程的基本控制量。
It is the preparation method parameter which is one of the basic controlling parameters in the processing course of Numerical control cuttings.
本文在数控切削加工工艺参数优化方面主要进行了基于加工特征的刀具选择的研究。
In this paper, we mostly discussed the cutting tool choice based on the feature of cutting process as belongs to the optimization of NC machining process parameters.
数控切削加工工艺参数及刀具运动轨迹优化是发挥数控加工设备生产效率的有效途径。
The optimization of NC machining process parameters and the cutting tool path is the available approach of exerting the NC machining equipment productivity.
并用工艺参数控制法减少锥轴的切削变形误差,从而保证加工精度。
The technological parameters control method is used to reduce machining deflection errors of cone axis, thus assuring the machining precision.
铣削加工有限元模拟研究为铝合金切削加工的工艺参数优化、刀具的优选和工艺规划奠定了基础。
The study has laid a base for material process parameter optimization, tool selection optimization and technics programming.
详细介绍了喷焊辊子的结构、生产工艺流程。对机械加工时刀具的选择及切削参数的选择给出了明确方案。
The structure and production process flow of spray welding rollers have been introduced in detail. The specific scheme has been given for selecting the cutting tool and parameter.
讨论了其在加工中所涉及的主要加工工艺,包括刀具、切削参数的优化选择。
Discuss the processing involved in the main processing technology, including the optimization of the cutting tools and the cutting parameters.
对高锰钢的切削性能、铣削加工工艺、刀具的结构和几何参数设计等进行了理论阐述及实践总结。
The cutting property, milling process, structures and geometric parameters of milling cutters for cutting ZGMn13 steel are studied theoretically and practically.
因此研究钛合金材料的切削性能,优化工艺参数对于提高加工效率、控制加工质量具有重要意义。
Therefore, investigation on cutting mechanism of titanium alloy and optimizing the cutting parameters are essential to increase machining efficiency and to control the cutting process.
因此研究钛合金材料的切削性能,优化工艺参数对于提高加工效率、控制加工质量具有重要意义。
Therefore, investigation on cutting mechanism of titanium alloy and optimizing the cutting parameters are essential to increase machining efficiency and to control the cutting process.
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