最后给出了铣削加工实例的优化结果。
Finally, the optimizing results of the milling process are presented.
在机械加工中,数控铣削加工占有重要的地位。
Nc milling machining is of importance in the machining process.
刀具半径补偿功能是数控铣削加工中的重要功能。
The function of cutter radius compensation is an important function in nc milling.
介绍了三轴数控铣削加工的走刀方式和进刀方式。
The tool path mode and the feed mode in numerical control milling are introduced.
主要介绍内旋包络式数控螺杆铣削加工的数学模型。
The mathematic model of screw processing with the new method has been introduced in this paper.
编制的优化设计程序,对铣削加工有广泛的适应性。
A computer program of the optimum design is compiled, which can be widely adopted to milling.
最后,进行了木材铣削加工的模糊在线控制的实验研究。
At last, the experiment research on the fuzzy on-line control for wood milling processing is done.
精确合理的铣削过程模型是研究铣削加工表面形貌的关键。
Precisely and reasonably modeling for milling process is the key to study milled surface topography.
而铣削参数的优化是提高数控铣削加工效率的难点,也是重点。
The optimization of milling parameters is difficult and important point for improving the efficiency of numerical control process.
采用成形铣削加工叶轮型面,保证了加工精度,提高了生产效率。
The application of process of vane wheel profile forming can ensure the machining accuracy and improve the productive efficiency.
介绍了异形螺杆数控铣削加工中应用无瞬心包络原理的理论与实践。
This paper introduces a principle and practice on milling special shaped spiral rod with non instantaneous pole envelope method.
通过对华中数控系统宏程序充分发掘,顺利实现了内半球的铣削加工。
Make full use of macro programming of Hua-zhong's numerical control system, favourably finshmilling inside hemisphere.
介绍了一种集动平衡测量与校正铣削加工于一体的轮对数控校正系统。
This paper introduces a wheel pair NC correcting system, which has the functions of both dynamic balance measure and milling process.
阐述了数控铣削加工过程中的刀具半径补偿指令和刀具半径补偿过程。
Cutter radius offset orders in numerical control (NC) milling manufacturing procedure are expounded and cutter radius offset procedure is analyzed.
针对异型螺杆铣削加工,采用振动信号特征值作为检测刀具磨损的参量。
The characteristic values of vibration signals were used as testing parameters of tool wear for milling special shaped spiral rods.
通过实例介绍了数控铣削加工中宏程序的编程方法和编程中应注意的问题。
This paper introduced the programming method of macro program and some problems needing attention in NC milling combined with cases.
数控铣削加工曲面过程中,刀具的运动轨迹是影响加工质量的一个重要因素。
In the process of CNC milling, movement locus of cutting tool is important influence factor on cutting quality.
本文提出了细化圆角走刀路径的铣削方法,以解决航空薄壁件的圆角铣削加工问题。
The corners tool path refinement approach is presented to solve the problems occur during the corner milling process of the aeronautical thin-walled components.
开发了一个针对铣削加工的切削力预测软件系统,通过铣削试验验证了该系统的正确性。
A software system is also developed to predict the milling forces and a serial of milling tests is performed to validate the software system.
研究了风栅铝片三轴铣削加工中装夹方法、刀具选择、走刀规划以及切削参数确定方法;
The clamping means, cutter selection, tool path planning and cutting parameters determination using three-axis machine for aluminum windshield pieces were studied.
该方法能准确地进行刀具轨迹补偿,运行可靠,已成功运用于数控铣削加工的自动编程系统。
The method can accurately compensates cutter path and it has been successfully applied to automatic programming system for NC-mill.
研究了数控铣削加工过程中刀具轨迹的生成,以及不同轨迹形式对加工质量有何影响等内容。
This paper study the making of cutting tool locus in CNC milling, and study the influence of deferent cutting tool locus on cutting quality.
阐述刀具半径补偿的基本原理和在数控铣削加工中刀具半径补偿的应用及使用时应注意的问题。
Expounds the basic principle of cutter radius compensation, and how to apply the cutter radius compensation in nc milling as well as some matters needed attention.
以刀具—工件系统的相对振动位移振幅最小为目标,完成铣削加工参数和铣刀几何参数的设计。
The design of milling process parameters and geometrical parameter of milling cutter is accomplished to obtain the minimum amplitude of relative vibratory displacement in cutter-workpiece system.
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.
为降低切削区温度、防止刀具的氧化磨损,提出在低温氮气射流条件下进行钛合金的高速铣削加工。
The use of cryogenic nitrogen gas jet to reduce the temperature of cutting zone and to avoid oxidation wear of tool in high speed milling titanium alloy was presented.
铣削力仿真不仅是铣削加工过程物理仿真的重要组成部分,同时也是颤振预报、表面形貌评估的基础。
Cutting force simulation is not only an important part of physical simulation in milling process, but also the foundation of vibration prediction and surface topography estimate.
在电火花铣削加工中,由于工具电极作旋转运动,其损耗呈轴对称分布,使工具电极的补偿成为可能。
In electric discharge milling machining (EDMM) process, the rotation of the tool electrode makes tool wear be axial symmetrical distribution, so it is possible to be compensated.
讨论在数控铣削加工中进行刀具半径补偿时常见的过切现象及其产生的原因,并提出相应的解决措施。
The gouge phenomena in cutter radius compensation and the generation causes are discussed, and the corresponding measures to resolve the problems are presented.
讨论在数控铣削加工中进行刀具半径补偿时常见的过切现象及其产生的原因,并提出相应的解决措施。
The gouge phenomena in cutter radius compensation and the generation causes are discussed, and the corresponding measures to resolve the problems are presented.
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