CONSTRAINED OPTIMIZATION STRATEGIES AND CAM SOFTWARE FOR SINGLE-PASS PERIPHERAL MILLING

被引:35
作者
ARMAREGO, EJA
SMITH, AJR
WANG, J
机构
[1] Department of Mechanical and Manufacturing Engineering, The University of Melbourne
[2] Department of Mechanical and Manufacturing Engineering, The University of Melbourne, Parkville, VIC
来源
INTERNATIONAL JOURNAL OF PRODUCTION RESEARCH | 1993年 / 31卷 / 09期
关键词
D O I
10.1080/00207549308956849
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Constrained optimization strategies and computer flow charts for single-pass rough peripheral milling on NC/CNC and conventional machine tools are presented and discussed. Various practical machine tool constraints have been considered, namely the maximum available power, torque and feed force, and feed speed and cutting speed limits. The optimization strategies for this common operation have been found to be very complex and require computer assistance. A comparison of handbook recommended and optimal solutions has highlighted the significant benefits of using the latter, and the need for minimizing the component loading time and cost to maximize such benefits.
引用
收藏
页码:2139 / 2160
页数:22
相关论文
共 16 条
  • [1] Ai X., Xiao S., Metal Cutting Conditions Handbook, (1985)
  • [2] Armarego E., Economics of machining—criteria, constraints and selection of optimum cutting conditions, UNESCOCIRP Seminar on Production Technology, (1983)
  • [3] Armarego E., Brown J., The Machining of Metals, (1969)
  • [4] Armarego E., Kek P.K., Smith A., Computer aided optimization of machining conditions in single pass turning operations, Institution of Engineers Australia, 3Rd International Conference on Manufacturing Engineering, (1986)
  • [5] Armarego E., Russell J.K., The maximum profit rate criterion applied to single pass shaping and milling processes, International Journal of Machine Tool Design and Research, 7, (1967)
  • [6] Armarego E., Smith A., Wang J., Optimization Analyses, Strategies and CAM Software for the Selection of Economic Cutting Conditions in Single Pass Peripheral Milling, (1989)
  • [7] Bhattacharyya A., Faria-Gonzalaz R., Ham I., Regression analysis for predicting surface finish and its application in the determination of optimum machining conditions, Transactions of the American Society of Mechanical Engineers, Journal of Engineering for Industry, 92, (1970)
  • [8] Chang T., Wysk R.A., Davis R.P., Choi B., Milling parameter optimization through a discrete variable transformation, International Journal Production Research, 20, (1982)
  • [9] A Treatise on Milling and Milling Machines, (1951)
  • [10] Draghici G., Paltinea C., Calculation by convex mathematical programming of the optimum cutting condition when cylindrical milling, International Journal of Machine Tool Design and Research, 14, (1974)
12