Compensating Deviations During Flexible Pin-type Moulding of Spatially Curved CFRP by Using 3D-Surface Detection

Lušić M, Katona S, Hornfeck R (2016)


Publication Language: English

Publication Type: Journal article

Publication year: 2016

Journal

Pages Range: 158-163

Journal Issue: 55

DOI: 10.1016/j.procir.2016.08.028

Open Access Link: http://www.sciencedirect.com/science/article/pii/S2212827116309179

Abstract

Laminating carbon-fiber-reinforced plastic (CFRP) traditionally uses rigid moulds. This process means that customising CFRP components is expensive since the costs of each rigid mould are allocated fully to only one associated CFRP. Therefore, using form-flexible moulds is beneficial, because it would eliminate the conventional restriction that each CFRP geometry needs one single rigid mould. The costs of one flexible mould would be allocated to all produced CFRP components. Thus, the more CFRP laminated on this single form-flexible mould, the less the CFRP is affected by mould costs. Creating form-flexible moulds by using pin-type tooling results in a discrete pin accumulation. To achieve the required continuous laminating surface, an interpolation layer is placed on the pins. However, compared to conventional CFRP moulds, normally made by CNC-milling, pin-type tooling complicates accuracy achievement. This is due to the fact that the elastic, silicone-like interpolation layer as well as several tolerances or inaccuracies within the mould mechanics, as an assembly, accumulate into the range of millimeters. Instead of using more accurate pin-type moulds, which is associated with increasing costs, this paper introduces an approach to integrate 3D surface detection methods into the process of form-flexible moulding of spatially curved CFRP using pin-type tools, which maintains costs and increases accuracy. The developed control loop compensates deviations dynamically and results in accuracies in the same range as parts produced using CNC-milled rigid moulds.

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How to cite

APA:

Lušić, M., Katona, S., & Hornfeck, R. (2016). Compensating Deviations During Flexible Pin-type Moulding of Spatially Curved CFRP by Using 3D-Surface Detection. Procedia CIRP, 55, 158-163. https://doi.org/10.1016/j.procir.2016.08.028

MLA:

Lušić, Mario, Sebastian Katona, and Rüdiger Hornfeck. "Compensating Deviations During Flexible Pin-type Moulding of Spatially Curved CFRP by Using 3D-Surface Detection." Procedia CIRP 55 (2016): 158-163.

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