论文信息 - Development of a Spiral Trajectory for High Speed Roughing of Light Alloy Aerospace Components

Development of a Spiral Trajectory for High Speed Roughing of Light Alloy Aerospace Components

A new spiral cutting method and its implementation within a CAD/CAM application software is proposed to save more than 16% in the roughing process of pockets for light alloy aerospace parts. The application prototype developed automatically generates the tool paths related to specific pocket profile geometry. It is shown, through experimentation using the prototype, that the parameters which define the spiral tool path geometry have a direct and important impact on cutting times. During the roughing operation, the proposed tool path takes into consideration the slant of the walls but also allows maximizing the quantity of material to be removed. The approach developed indicates great potential for roughing optimization of parts having multiple pockets.

[1] René Mayer,et al. Surface shape prediction in high speed milling , 2004 .

[2] Aaas News,et al. Book Reviews , 1893, Buffalo Medical and Surgical Journal.

[3] Eugénio C. Ferreira,et al. Fed-batch trajectory optimal control problems with cubic splines , 2006 .

[4] Kunwoo Lee,et al. Principles of CAD/CAM/CAE Systems , 1999 .

[5] Gábor Lukács,et al. Pocket machining based on contour-parallel tool paths generated by means of proximity maps , 1994, Comput. Aided Des..

[6] Eungki Lee,et al. Contour offset approach to spiral toolpath generation with constant scallop height , 2003, Comput. Aided Des..

[7] Pascal Ray,et al. Corner optimization for pocket machining , 2004 .

[8] Michael Brady Bieterman,et al. A Curvilinear Tool-Path Method for Pocket Machining , 2003 .

[9] B. Szabó,et al. Machining-Induced Residual Stress and Distortion , 2005 .

[10] Wang Hongfeng,et al. Analysis and computation of mechanical action of residual stress in milling , 2006 .

[11] Byoung Kyu Choi,et al. Automatic feedrate adjustment for pocket machining , 2003, Comput. Aided Des..

[12] Ciro A. Rodríguez,et al. Influence of tool path strategy on the cycle time of high-speed milling , 2003, Comput. Aided Des..