cutter path
英 [ˈkʌtə(r) pɑːθ]
美 [ˈkʌtər pæθ]
刀具轨迹
双语例句
- Measurement and Analysis of Disk Cam Profile and Calculation of Cutter Centre Path for Manufacturing Copy
盘形凸轮轮廓的检测、平差分析以及仿制加工之刀具中心轨迹的计算 - Calculation of cutter location path for NC-ultrasonic grinding of ceramic blade surface
数控超声磨削陶瓷叶片型面刀位轨迹计算 - The Optimization of Cutter Path in NC Milling Processes Based on Master CAM
基于MASTERCAM的数控铣削加工刀具路径优化 - The analytical method of obtaining maximum safe feedrate along a curved cutter path with driving force and acceleration constraints is also introduced.
并采用解析的方法,计算了在各轴加速度和伺服电动机驱动力约束条件下,机床沿曲线加工时的最大安全进给速度。 - Later in the process, this software allows for fine-tuning of the "cutter path" that will be used to actually cut the steel die used in the production presses.
后来在这个过程中,该软件允许精细的“刀具路径”,将用于实际削减钢铁生产压力机用于模具调整。 - A new adaptive circle cutter path generation method is proposed.
分析了目前层面内刀具轨迹平行线生成算法的不足之处,提出了层面内刀具环形轨迹的自适应生成方法。 - Automatic generation of cutter path for plane milling is the key problem in CAPP/ CAM integrated design. A new approach is proposed in this paper.
平面铣削路径的自动生成是CAPP/CAM集成设计的瓶颈问题。 - By means of the research work of references, dynamic characteristics of the space surface numeral control milling process were studied aiming at a new cutter path based on space filling curves in this paper.
研究了采用一类填充曲线刀具路径进行数控铣削加工时,铣削过程的动态特性。 - Method for Modeling of Cutter Path to the NC Machining Spatial Cam Surfaces
空间凸轮曲面数控加工刀具轨迹方程的建模方法 - This paper mentioned an algorithm of three axes NC cutter path that can be directly generated from unorganized massive data points.
提出了一种直接利用三维散乱测量数据点的三轴数控粗加工刀位轨迹生成算法。 - Algorithm for NC cutter path generation during cylindrical milling integrated impeller
整体叶轮侧铣数控加工刀位轨迹生成新方法 - Cutter Path Determination for Plane Milling in CAPP/ CAM
CAPP/CAM中平面铣削路径的确定 - Algorithms for tool path calculation and cutter path interval calculation are derived. Frame model for CAM system of PMTs is established.
推导出了刀位轨迹算法和切削行距算法,建立了面向新型并联机床的CAM系统框架模型。 - Generation of cutter path for integral impeller processing with method of flank milling on divided pieces
基于分片侧铣法的整体叶轮数控加工分片侧铣加工整体叶轮刀位轨迹的生成 - In this paper, the key of the method, i.e. the generation of the cutter path for each curved piece, including the determination of the direction of tool axis, planning for cutter path, and analysis of errors for processing, was discussed.
文中对该方法涉及的关键问题&各曲面片上刀位轨迹的算法,包括刀轴方向的确定、刀位轨迹的规划及加工误差的分析进行了讨论。 - Then a quick interference calibration module of cutter path is developed with VC and a quick interference calibration of cutter path generated by the CAM module of UG is realized.
在此理论基础上,利用VC6.0开发了并联机床刀具轨迹干涉校验模块,该模块实现了对UG的CAM模块产生的刀具路径进行快速校验的功能。 - By using so called 'perforation lines', the intersection lines are identified to form the interference free cutter path code efficiently.
提出了利用贯穿线对交线进行规整处理,高效地获得无干涉的精加工刀具轨迹。 - The principle and method was introduced of identifying cutter offset direction and calculating cutter path according to vector operation.
介绍了通过矢量运算方法对立铣加工刀具偏移方向和刀具轨迹进行快速自动判别和计算的原理和方法。 - The method can accurately compensates cutter path and it has been successfully applied to automatic programming system for NC-mill.
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。 - Finally, a new approach for cutter path calculation using binary-search technique is presented, which will simplify the CNC programming problems to a great extent.
最后提出一种采用对分试算法计算刀具轨迹的新方法,可简化数控编程计算问题。 - Research on High Speed Milling Forces and Cutter Path Optimizing
高速铣削切削力变化及刀具轨迹优化研究 - Automatic Generation of the Flat End Cutter Path without Overcut Interference during Machining of Sculptured Surfaces
平头立铣刀无过切干涉刀位轨迹的自动生成 - Cutter Path Strategies in High Speed Rough Milling of Hardened Steel
高速粗铣削加工淬硬钢时刀具路径方案的选择 - In conclusion, where long tool life, high volume of metal removed, short machining times and high volumetric removal rates were concerned, raster cutter path strategy was the most favourable at all high axial depths of cut employed.
研究结果表明,在高轴向切削深度情况下,选择往复行切刀具路径方案最为有利,从而使刀具寿命长、金属切削量大、切削加工时间短、金属体积去除率高。 - The result shows there are great influences of geometrical properties of cutter path on the kinematics and dynamics of a machine tool.
分析结果表明刀具路径几何特性对机床的运动学和动力学特性有很大的影响。 - Results of clinical experiments show that the machine tool and the cutter path planning algorithm can meet the demand of clinical application.
经过临床实例加工表明:该数控机床和刀具运动轨迹规划算法完全满足实际应用要求。 - The appropriate planning of cutter path not only direct influence stock-removing efficiency, machining precision and machining interference but also influence the dynamic performance of machine tool and operating life of cutter.
刀具轨迹规划的合理与否,不仅直接关系到切削效率、加工精度、加工干涉,而且还影响机床的动力性能及刀具的使用寿命。 - Cutter workpiece engagement ( CWE) which is the foundation of cutting force research defines the practical contact situation between cutter and workpiece. The CWE usually changes along cutter path in surface machining.
刀具切触区域(CWE)界定了刀具与工件的实际切触情况,是铣削力研究的基础,曲面加工中的刀具切触区域通常沿着刀具轨迹不断变化。