DEVELOPMENT OF A FRAMEWORK TO AUTOMATE PROCESS PLANNING FUNCTIONS AND TO DETERMINE MACHINING PARAMETERS

被引：26

作者：

NARANG, RV

FISCHER, GW

机构：

[1] Department of Manufacturing Technology, Indiana-Purdue at Fort Wayne, Fort Wayne, IN

[2] Department of Industrial Engineering, The University of Iowa, Iowa City, IA

来源：

INTERNATIONAL JOURNAL OF PRODUCTION RESEARCH | 1993年 / 31卷 / 08期

关键词：

D O I：

10.1080/00207549308956832

中图分类号：

T [工业技术];

学科分类号：

08 ;

摘要：

A methodology is developed to perform the machining parameter selection function in an automated process planning environment. At the same time, a framework is developed to perform the machine and tool selection function of process planning. The purpose of the machining parameter selection function, as envisioned in this study, is to determine the number of roughing and finishing passes needed, depth of cut, cutting speed, and feed for each pass depending on the part geometry, tolerance, the available machine types and appropriate grades of cutting tools. A new stable cutting region constraint is proposed. A machining-related cost based on tolerance, called measurement and adjustment cost, is derived and included in the formulation. A way to determine maximum roughing depth of cut is indicated. Finally, a part example is used to demonstrate the concepts for a turning operation.

引用

页码：1921 / 1942

页数：22

共 23 条

[1]

Arcelus F.S., Banerjee P.K., Optimal production plan in a tool wear process with rewards for acceptable, undersized and oversized parts, Engineering Costs and Production Economics, 11, pp. 13-19, (1987)

[2]

Armarego E., Brown R.H., (1969)

[3]

Berglund J., Hallden L., A discussion on a criterion for the choicc between manufacturing on a positionally controlled milling machine and a conventional machine, International Journal of Production Research, 2, pp. 95-105, (1963)

[4]

Bhattacharyya A., Fariagonzalez R., Ham J., Regression analysis for predicting surface finish and its application in the determination of optimum machining conditions, Transactions of the ASME, Journal of Engineering for Industry, 92, pp. 711-714, (1970)

[5]

Dontamseth S., Fischer G.W., Factors affecting surface roughness in finish turning of gray cast iron, Advanced Materials and Manufacturing Processes, 4, pp. 689-725, (1988)

[6]

Ermer D.S., Kromodihardjo S., Optimization of Multipass Turning with Constraints. Transactions of the ASME, Journal of Engineering for Industry, 103, pp. 462-468, (1981)

[7]

Fischer Wei G.W.Y., Dontamsktti S., Process-Controlled Machining of Gray Cast Iron. Journal of Mechanical Working Technology, 20, pp. 47-57, (1989)

[8]

Gibra I.N., Optimal production runs of processes subject to systematic trends, International Journal of Production Research, 12, pp. 511-517, (1974)

[9]

Gopalakrishnan B., Aikhayyal F., Machine parameter selection for turning with constraints: An analytical approach based on geometrie programming, International Journal of Production Research, 29, pp. 1897-1908, (1991)

[10]

Goyal S.K., The economics of two pass machining operations, Engineering Costs and Production Economics, 8, pp. 263-267, (1985)

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