研究对楔横轧模具虚拟加工系统的设计、建立和实现提供了一定的理论依据。
The research provides the theoretical basis for design, build and implement of virtual machining system for DCWR.
首先比较了传统的和虚拟的楔横轧模具加工方法,并提出了楔横轧模具虚拟加工系统VMS的体系结构。
In this paper, the traditional and virtual machining approaches of DCWR are compared first. Then, the framework of virtual machining system (VMS) of DCWR is discussed.
这个系统能够完成虚拟加工,实现优化加工工艺、预报和检测加工质量的目标。
The purpose of this system is to implement virtual machining and to optimize the process planning, forecast and measure processing quality.
针对箱体类零件加工环境建立虚拟生产加工系统体系结构,该体系结构包括基础核心层、制造系统层、界面层的三层结构。
A system structure for virtual machining system is built according to the machining environment of box type parts with the basic core layer, manufacturing system layer and interfacial layer included.
根据实际加工情况提出了一种虚拟NC车削加工系统的设计方法及实现原理。
According to the real operation, a kind of method on virtual NC lathing system and realizable theory are presented.
文章提出了一种基于虚拟仪器技术的精密加工测试系统,并讨论了这种测试系统的原理以及硬件和软件的实现。
A test system of precision machining based on virtual instrument is introduced. The theory of this test system and realization of hardware and software are discussed.
虚拟柔性加工单元是虚拟制造系统研究的核心。
Virtual Flexible Machining Cell (VFMC) is the kernel of Virtual Manufacturing System.
文章分析了虚拟加工制造技术的现状,提出创成式机加工工艺系统的理论框架。
This paper analyzes the application status of virtual machining technology, then puts forward the framework of a generative process planning (GPP) machining system.
并使虚拟机床加工系统与其他虚拟系统以及CAD/CAM系统、制造网络上加工地之间的协作更加默契。
The foundation of this architecture makes the cooperation more harmonious between VMT and the others such as CAD/CAM system and machining plot on manufacturing network.
凸轮轴磨削工艺系统三维实景是本研究中凸轮轴虚拟磨削加工系统的基础功能单元。
D real scene of CAM shaft grinding process system is a basic function unit of the CAM shaft virtual reality grinding system in our research.
进一步用一种全新的器件微流量泵的工艺设计和虚拟加工过程验证了系统的可扩充性。
Furthermore, the process of design and virtual fabrication of a new MEMS device, micropump, verified the system "s expansibility."
进一步用一种全新的器件微流量泵的工艺设计和虚拟加工过程验证了系统的可扩充性。
Furthermore, the process of design and virtual fabrication of a new MEMS device, micropump, verified the system "s expansibility."
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