Abstract
The thin-walled structures always tend to distort and deform during machining due to its low rigidity, which will influence the tolerance characteristics of the final product. Thus, to control machining accuracy of is very challenging. This paper focuses on a solution to this problem, an information-localizing method for machining large thin-wall structures is proposed. Further, a fiducial correction algorithm is used to compensate the machining deformation error. Finally, the experiments were carried out, and the results indicated that the proposed method can improve the machining accuracy.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Cheng, H., Li, Y., Zhang, K.F., Su, J.B.: Efficient method of positioning error analysis for aeronautical thin-walled structures multi-state riveting. Int. J. Advan. Manufact. Technol. 55, 217–233 (2011)
Szynkiewicz, W., Zielińska, T., Kasprzak, W.: Robotized machining of big work pieces: Localization of supporting heads. Front. Mech. Eng. China 5(4), 357–369 (2010)
Uriarte, L., Zatarain, M., Axinte, D., Yague-Fabra, J., Ihlenfeldt, S., Eguia, J., Olarra, A.: Machine tools for large parts. CIRP Ann-Manuf. Techn. 62(2), 731–750 (2013)
Wei, Y., Wang, X.W.: Computer simulation and experimental study of machining deflection due to original residual stress of aerospace thin-walled parts. Int. J. Advan. Manufact. Technol. 33, 260–265 (2007)
Ma, F.Y., Jinguo, L., Weiwei, W., Wei, L., Lijun, C.: Evaluation method for milling machining deformation of thin-walled structures. In: Lin, S., Huang, X. (eds.) CSEE 2011, Part II. CCIS, vol. 216, pp. 468–473. Springer, Heidelberg (2011)
Denkena, B., Schmidt, C.: Experimental investigation and simulation of machining thin-walled workpieces. Prod. Eng. Res. Devel. 1, 343–350 (2007)
Adetoro, O.B., Sim, W.M., Vepa, R., Wen, P.H.: A new damping modelling approach and its application in thin wall machining. Int. J. Advan. Manufact. Technol. 51, 453–466 (2010)
Smith, K.S., Woody, B.A.: Improving the accuracy of large scale monolithic parts using fiducials. CIRP Ann Manuf Technol 54(1), 483–486 (2005)
Woody, B.A., Smith, K.S., Hocken, R.J., Miller, J.A.: A technique for enhancing machine tool accuracy by transferring the metrology reference from the machine tool to the workpiece. J Manuf Sci Eng Trans ASME 129(3), 636–643 (2007)
Guo, D.M.: Function-geometry integrated precision machining methods and technologies for high performance workpieces. Chin. Eng. Sci. 13(10), 47–57 (2011)
Mears, L., Roth, J.T., Djurdjanovic, D.: Quality and inspection of machining operations–CMM integration to the machine tool. J Manuf. Sci. Eng. Trans. ASME, 131, 051006(1-13) (2009)
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2015 Springer International Publishing Switzerland
About this paper
Cite this paper
Liu, H.B., Hou, B., Zhang, J., Wang, Y.Q. (2015). Improving Machining Accuracy of Thin-Wall Parts Using the Information-Localizing Technology. In: Liu, H., Kubota, N., Zhu, X., Dillmann, R., Zhou, D. (eds) Intelligent Robotics and Applications. ICIRA 2015. Lecture Notes in Computer Science(), vol 9245. Springer, Cham. https://doi.org/10.1007/978-3-319-22876-1_61
Download citation
DOI: https://doi.org/10.1007/978-3-319-22876-1_61
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-22875-4
Online ISBN: 978-3-319-22876-1
eBook Packages: Computer ScienceComputer Science (R0)