Interference detection and optimal tool selection in 3-axis NC machining of free-form surfaces

This paper presents a systematic tool-path generation methodology which incorporates interference detection and optimal tool selection for machining free-form surfaces on 3-axis CNC machines using ball-end cutters. In this method, the global and local interference is first detected and prevented, an...

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Veröffentlicht in:	Computer aided design 1999-04, Vol.31 (5), p.303-315
Hauptverfasser:	Yang, D.C.H., Han, Z.
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Computer aided design Computer science control theory systems Exact sciences and technology Free-form surfaces Interference detection Mechanical engineering. Machine design Optimal tool selection Software Tool-path generation
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container_title	Computer aided design
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creator	Yang, D.C.H. Han, Z.
description	This paper presents a systematic tool-path generation methodology which incorporates interference detection and optimal tool selection for machining free-form surfaces on 3-axis CNC machines using ball-end cutters. In this method, the global and local interference is first detected and prevented, and then the optimal tools in terms of machining time are selected and tool paths are generated. A system of five algorithms is developed to determine the interference area. On the basis of these algorithms, the machining time of each available tool is estimated by considering tool size, scallop height, and accessible surface area. Finally, the combination of tools which possesses the minimum overall machining time is selected as the optimal tool sizes. Our case study has demonstrated the validity of the proposed methodology and algorithms.
doi_str_mv	10.1016/S0010-4485(99)00031-7
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In this method, the global and local interference is first detected and prevented, and then the optimal tools in terms of machining time are selected and tool paths are generated. A system of five algorithms is developed to determine the interference area. On the basis of these algorithms, the machining time of each available tool is estimated by considering tool size, scallop height, and accessible surface area. Finally, the combination of tools which possesses the minimum overall machining time is selected as the optimal tool sizes. 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In this method, the global and local interference is first detected and prevented, and then the optimal tools in terms of machining time are selected and tool paths are generated. A system of five algorithms is developed to determine the interference area. On the basis of these algorithms, the machining time of each available tool is estimated by considering tool size, scallop height, and accessible surface area. Finally, the combination of tools which possesses the minimum overall machining time is selected as the optimal tool sizes. Our case study has demonstrated the validity of the proposed methodology and algorithms.</description><subject>Applied sciences</subject><subject>Computer aided design</subject><subject>Computer science; control theory; systems</subject><subject>Exact sciences and technology</subject><subject>Free-form surfaces</subject><subject>Interference detection</subject><subject>Mechanical engineering. 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subjects	Applied sciences Computer aided design Computer science control theory systems Exact sciences and technology Free-form surfaces Interference detection Mechanical engineering. Machine design Optimal tool selection Software Tool-path generation
title	Interference detection and optimal tool selection in 3-axis NC machining of free-form surfaces
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