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中文字数:3102,中文页数:07 英文字数:2803页数:09
摘要
基本原理和应用技术在高速研磨上占有相当的地位。除了发展高速切削的相关技术外,磨床、冷却系统、磨轮也需要适应高速加工。文章最后提出了当前和今后的研究发展方面的高速磨削,发展用立方淡化硼砂轮的高速磨床。
引子
经过多年的高速机的发展,其应用领域不断扩大,从古典磨削加工工艺,一直到完成高性能机械加工过程中。高速磨削发挥了重要作用,而且生产出的产品优质高产。其中一个因素是在创新的过程中,必须提高生产力的常规整理过程。在发展过程中显然高速磨削加工工艺过程与初步理论基础的配合接近完成,使配置过程顺序与新的高性能能力提高。同时采用适当的工具机、研磨机,还有可能扩大到高性能软材料切削机的发展。
首先,在讨论原理的基础研究过程中,磨软材料的有关配置工具也需要达到要求,实施有效的环保制冷系统,调查工作也同时是适合高速磨削技术影响的一个变数。
Abstract
The basic mechanisms and the applications for the technology of high-speed grinding with CBN grinding wheels are presented. In addition to developments in process technology associated with high-speed machining, the grinding machine, coolant system, and the grinding tool also need to adapt to high-speed machining. Work piece-related factors inurning the results of machining are also discussed. The paper concludes with a presentation of current research and future developments in the area of high-speed grinding, and the development of high-speed CBN camshaft grinding. All rights reserved.
1. Introduction
More than 25 years of high-speed grinding have expanded the field of application for grinding from classical finish machining to high-performance machining. High-speed grinding offers excellent potential for good component quality combined with high productivity. One factor behind the innovative process has been the need to increase productivity for conventional finishing processes. In the course of process development it has become evident that high-speed grinding in combination with preliminary machining processes close to the finished contour enables the configuration of new process sequences with high-performance capabilities. Using the appropriate grinding machines and grinding tools, it is possible to expand the scope of grinding to high-performance machining of soft materials. Initially, a basic examination of process mechanisms is discussed that relates the configuration of grinding tools and the requirements of grinding soft materials. The effect of an effective and environmentally friendly coolant system is also investigated in addition to the effect of work piece-related variables on the suitability of using high-speed grinding techniques.