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Fig. 7.Example of machining witch linear ramping [2]. Fig. 8. Example of machining witch ramping capacity [2]. The last method is effective when using round insert cutters or end mills with a ramping capacity. The best choice it is to take the first axial depth of cut using circular interpolation in helix the rest of machining goes as in the previous point. (Fig. 8) 7 Conclusion Hard competition causes rapid development of the machining technology and design of new solutions. High Speed Machining is proposed as an example. HSM ensures high metal removal rates, boost productivity, improve surface finish and eliminates the need of coolant. In spite of high requirements of machining tools, HSM gives numerous benefits. It allows to shorten the production time and eliminates some treatment (e.g. manual finishing) beside simultaneously retaining the accuracy. These advantages are decisive for the use of HSM for machining the press dies. Even though HSM has been known for a long time, the research are still being developed for further improvement of quality and minimization of costs. 8 References [1] Ashley S., High – speed machining goes mainstream, Mechanical Engineering, May 1995, (56 – 61). [2] Die & Mould Making Application Guide, Sandvik Coromant, 1999. [3] Fraisage a grande vitesse, Fabrication des outillages: des resultats spectaculaires, L’Usine Nouvelle, 1995, 16.02, nr 2490, (46 – 48). [4] Grzesik W., Podstawy skrawania materialów metalowych, WNT, Warszawa, 1998. [5] Mason F., Die and mold finishing. How fast?, Manuf. Eng. 1995, t. 115, nr 3, s. 35-36,39-40, 42, 45, 47-48. [6] Materialy z IV-go Sympozjum z cyklu “Formy wtryskowe i odlewnicze”, Miarki, maj 1997. [7] Plaza M., The prons and cons of high-speed machining, Canadian Machinery and Metalworking, Sep. 1995, (8 – 10). [8] Przybylski L., Monolityczne frezy trzpieniowe z weglików spiekanych nowej generacji, II Ogólnokrajowa Konferencja Naukowo – Techniczna “Jakosc w budowie obrabiarek i technologii maszyn”, Kraków, 1997, (115 – 121). [9] Schulz H., Moriwaki T., High – speed machining, Ann. of the CIRP, 1992, t. 41, nr 2, s. 637 – 642. [10] Szewczyk A., Wybrane zespoly i wyposazenie obrabiarek do obróbki z wysokimi predkosciami skrawania, Prace IOS, seria Opracowania Analityczno-Syntetyczne, 1993, nr 3. [11] Tlusty J., High – speed machining, Ann. of the CIRP, 1993, t. 42, nr 2, s. 733 – 738.
概要:这篇高速切削的研究报告提出了一些不同的定义。一些机床,`优尔|文[论]文'网www.youerw.com工具以及加工数据需要被定义。描述了一些孔加工的实例。并对一些产品的经济优势,刀具和刀具架的不平衡性进行了探讨。
1 引言
高速切削是一种现代加工工艺,相对于传统加工,它不仅增加了效率,工件加工质量和精确度,而且在某些时候更减少了成本和加工时间[9]。
尽管高速切削被人们认知有很长一段时间了(第一次尝试是在过去二十世纪的早期论文网),还是有很多的问题以及或多或少的关于高速切削的定义复杂化。
高速切削的定义首先是由萨洛蒙在1931年提出的。他设想在切削时能够以比传统切削快5-10倍的速度加工时,切屑的温度就会开始降低