Graphics Simulation technology in NC machining is a powerful tool for validating NC machining programming, which using the computer graphical output to simulate the real machining process.
数控加工图形仿真技术利用计算机图形显示来模拟实际加工过程,是验证数控加工程序正确性的有力工具之一。
Model of self-generation of angular positioning precision during mutual lapping machining process for end-tooth indexing table was built. Simulation results agree with industrial machining practice.
建立了端齿盘对研加工过程中分度精度自生成的模型,仿真结果符合工业加工实际。
The simulation environment of Multi-axis simultaneous NC machining for blades of large hydro turbine is established through mapping of machining process for NC machine tool, cutter and clamp.
水轮机叶片多轴联动数控加工仿真环境,通过对数控机床、刀具、夹具及等加工过程映射构建。
The system integrated with metal cutting database and machining simulative system, which realizes the combine of automatic programming and simulation of process.
该系统与金属切削数据库、仿真加工系统相集成,实现了自动编程和加工仿真的一体化。
In NC machining process, the geometric and physical simulation of NC codes can quickly verify the correctness of the codes and help optimize the selection of key parameters.
在数控加工中,对数控代码进行集成的几何仿真和物理仿真,可以快速检验加工代码的正确性并对加工参数进行优化。
With numerically controlled machining processing as objective for study, by the use of simulation software technology, the paper aims to test and verify the process on computer.
本文以数控车削加工为研究对象,利用软件仿真技术,在计算机上实现对数控加工程序的验证。
To ensure the trouble free operation of CNC machining process, the correctness of CNC machining programs need to be verified by means of the simulation machining technology.
为保证实际数控加工的顺利进行,需要采用仿真加工技术对数控加工代码的正确性进行检验。
The work of computer simulation onmachining ruled surface by means of wire cutting is done in this thesis to widen the applying range of WEDM process in machining complex ruled surface.
为了拓宽复杂直纹曲面电火花线切割加工的工艺范围并提高其加工效率,本文进行了直纹曲面线切割计算机图形仿真技术的研究工作。
Based on the above purposes, a NC milling simulation system oriented to test and teaching has been developed; it achieves a dynamic simulation of the machining process.
基于上述目标,本文开发了一款面向培训、试验的曲面数控铣削仿真系统,实现了加工过程动态仿真。
The simulation and machining process were built up in the virtual manufacturing environment. Models of machining center and part were produced in the simulation environment.
该虚拟环境主要包括仿真环境的建立和加工过程的建立两部分,其中仿真环境的建立包括加工中心的建模和零件的建模。
This paper tries to solve the temperature-field problems of heat-conduction in mechanical machining process for moving heat sources by the simulation method of the R-C network model.
本文试图用网络模拟法解机械制造过程中运动热源的导热温度场问题。
A method based on orthogonal cutting simulation is proposed to predict the distortion of parts due to milling machining, and a finite element model for 3d milling process is set up.
提出了基于正交切削模拟的零件铣削加工变形的预测方法,建立了三维铣削加工的有限元模型。
Simulation results show that the designed system is of fast response, non-overshoot and it is more effective than the conventional adaptive control of machining process based on neural network.
仿真结果表明,该系统响应快,无超调,比传统的加工过程神经网络自适应控制具有更好的控制效果。
The simulation technology of nc process provides a powerful implement to judge the validity of nc codes, avoid the occurrence of interference and collision, and forecast the machining process.
数控加工仿真技术为验证数控程序的可靠性、防止干涉和碰撞的发生及预测加工过程提供了强有力的工具。
The 3d simulation of machining process for special shaped spiral rod is realized. Data ready, tool choice and final NC machining are all accomplished automatically.
该系统实现了对异形螺杆加工过程的三维仿真,完全自动实现从数据准备、刀具选取到最终数控加工的全过程。
Through the establishment of the process database, the simulation system is applicable to electric discharge machining in other medium, it is a help to raise the automation of…
通过建立简易工艺数据库 ,该系统可适用于其它介质中的火花放电加工 ,有助于提高电火花气中放电加工自动化程度和开发智能化加工系统。
Results of the simulation and experiments show that the modularized fixation system can fix the paper honeycomb parts with complex surface during machining process.
实验与仿真结果表明,模块化固持平台能够满足复杂曲面蜂窝铣削加工的固持要求。
Taking the fuzzy chip F100 as an example, a control system based on fuzzy-chip is designed and applied to the simulation of nonlinear machining process and the experiment of milling process.
以F10 0模糊芯片为例,设计了基于模糊芯片的控制系统,并在非线性的加工过程进行了仿真实验,同时运用于铣削过程的现场实验。
Taking the fuzzy chip F100 as an example, a control system based on fuzzy-chip is designed and applied to the simulation of nonlinear machining process and the experiment of milling process.
以F10 0模糊芯片为例,设计了基于模糊芯片的控制系统,并在非线性的加工过程进行了仿真实验,同时运用于铣削过程的现场实验。
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