| 1. | A review of tool - path generation in multi - axis nc machining
多轴数控加工刀位轨迹的生成技术综述 |
| 2. | Interference - free tool path algorithm based on genetic algorithm
基于遗传算法的无干涉刀位轨迹计算 |
| 3. | Pose adjustment of turning tool based on intelligent cutter grinding machine
基于智能化刃磨的车刀位姿调整 |
| 4. | Optimization of five - axis tool path based on principal - curvature matching
基于主曲率匹配的五坐标刀位轨迹优化 |
| 5. | Tool path generation for 4 - axis numerical control machining of arbitrary surface blades
任意曲面叶片四坐标数控加工刀位轨迹的生成方法 |
| 6. | A new method to calculate tool posture without collision for 5 - axis nc machning free - form surfaces using non - ball mill
非球头刀数控加工无干涉刀位的计算方法 |
| 7. | Calculation of cutter - location and error analysis in numerical control flank milling of twisted ruled surface impeller
任意扭曲直纹面叶轮数控侧铣刀位计算与误差分析 |
| 8. | On basis of the previous researches , a new tool - path generation algorithm for three - axis nc rough machining based on solid models is presented
在此基础上,提出了一种适合实体模型的新的三轴数控粗加工刀位轨迹生成算法。 |
| 9. | At last convert the cutter location data into nc code which can be used on the siemens 802d nc system through post processing
开发了针对西门子802d数控系统的后置处理器,实现对符合加工精度要求的刀位数据的后置处理,生成nc代码。 |
| 10. | The tool path can be adapted according to the shape of surfaces meanwhile the break , gap and overlap between adjacent surface patches are eliminated
该算法将加工曲面离散成三角化模型,在三角化模型中直接生成无干涉刀位轨迹,刀轨生成与刀轨干涉处理统一在一个演算法中。 |
