Control of the Fabrication of Long Slender Workpieces of Arbitrary Shape—Part I: Open-Loop Control of the Multi-Axis Bending Process

Computer numerically controlled (CNC) multi-axis bending is a new metal-forming process used to fabricate long slender workpieces of arbitrary shape and cross section. This process can achieve higher productivity and flexibility than conventional forming processes. However, a manual trial-and-error...

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Bibliographic Details
Published in:Journal of dynamic systems, measurement, and control measurement, and control, 1996-09, Vol.118 (3), p.540-548
Main Authors: Luo, J. X, Joynt, D. L, Stelson, K. A
Format: Article
Language:English
Subjects:
Applied sciences
Exact sciences and technology
Forming
Mechanical engineering. Machine design
Metals. Metallurgy
Press forming of metal foils and wires
Production techniques
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Summary:Computer numerically controlled (CNC) multi-axis bending is a new metal-forming process used to fabricate long slender workpieces of arbitrary shape and cross section. This process can achieve higher productivity and flexibility than conventional forming processes. However, a manual trial-and-error process has been adopted to find control commands that would produce accurate part shape in mass production. This traditional approach which completely relies on the skills of the machine operator often results in long lead-times and great cost in setting up the bender for a new part. A new methodology has been developed, using the geometrical concept of intrinsic part representation, to model the workpiece and fabricating process. The process model compensates for elastic and fabricating process. The process model compensates for elastic springback, and can be used to predict a set of initial multi-axis control commands which will eventually converge to the final commands through a feedback process. The effectiveness of the method has been demonstrated experimentally.
ISSN:0022-0434
1528-9028
DOI:10.1115/1.2801178