在数控技能大赛中轮廓倒角和倒圆角的宏程序编制方法有两种:刀具中心轨迹编程和刀具半径补偿编程。
It describes the process of filleting contour in programming with the tool center track and tool radius compenstration.
以轨道半径和轨道倾角为未知量依据星下点轨迹要求条件构建了非线性方程组,但直接求解过于复杂,采取迭代的方法解决。
Non-linear equations are(constructed) with the restriction of the satellite ground trace to resolve the unknown semi-axis and inclination, but it's too complicated to be resolved directly.
它的开发、应用成功,为小井眼、短半径井的井眼轨迹测量、斜向器定向开窗作业提供了必备的测量手段。
The development and application of this device provided a necessary mean for the slim hole track measurement and directional window cutting.
小球的半径、折射率越小,以及环境的粘滞系数越大,小球轨迹的振荡越弱,收敛速度越快。
Smaller particles and larger viscosity of surrounding medium resulted in less oscillation and faster convergence to the parabolic line.
补偿模式:在金刚石刀具补偿进行期间,刀具中心轨迹始终偏离编程轨迹一个刀具半径值的距离。
Compensation mode: during the cutting tool compensation cutter center track always deviated from the distance of a tool radius value programming track.
根据三维刀具半径补偿原理,确定了刀具的刀位点运动轨迹。
According to the 3d cutter radius compensation theory, the path planning of the cutter location point may be determined.
同时,还数值模拟了小球在艾里光束中的运动轨迹,讨论了小球半径、折射率以及环境粘滞系数对小球轨迹的影响。
Trajectories of particles in the Airy beam were investigated and their relationships with particle radius, refractive index, and viscosity of surrounding medium were studied.
提出直接根据单值曲面3维密集测量数据点云进行刀具半径长度补偿,生成刀具加工轨迹并有效清除刀具干涉的新算法。
This paper presents a new algorithm to calculate the CNC tool path directly from the 3D data cloud, eliminating all path interference at the same time.
提出直接根据单值曲面3维密集测量数据点云进行刀具半径长度补偿,生成刀具加工轨迹并有效清除刀具干涉的新算法。
This paper presents a new algorithm to calculate the CNC tool path directly from the 3D data cloud, eliminating all path interference at the same time.
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