Improving measurement accuracy of aviation parts on a coordinate measuring machine

Authors

DOI:

https://doi.org/10.18372/2073-4751.79.19375

Keywords:

coordinate measuring machine, measurement accuracy, errors, aviation parts, mathematical model, automatic correction, geometric errors, kinematic errors, thermal effects, aviation manufacturing, metrology

Abstract

This article is devoted to the development of methods for enhancing the accuracy of aviation parts measurements on coordinate measuring machines, which is critically important for ensuring quality and safety in aviation manufacturing. A mathematical model is proposed that accounts for the main types of errors: geometric, kinematic, and thermal. An automatic correction algorithm is also developed, allowing for the minimization of these errors' impact on measurement results. The application of this approach contributes to the improvement of accuracy and reliability in controlling geometric parameters, which is essential for the production of structurally complex and critical aviation components.

References

Kim J.H., Lee K.S. Optimization of measurement trajectories for complex aerospace components inspection. CIRP Annals. 2023. Vol. 72, no. 1. P. 475–478.

Zhang R. Advanced filtering methods for coordinate measurements data processing. Metrology and Measurement Systems. 2022. Vol. 29, no. 2. P. 325–340.

Brown M., Johnson P. Temperature gradient effects on CMM accuracy: experimental investigation. International Journal of Metrology and Quality Engineering. 2022. Vol. 13, no. 2. P. 15–28.

Wilson D.R., Thompson R.C. Real-time error compensation in coordinate metrology. Measurement. 2023. Vol. 205. P. 112–125.

Smith A.B., Lee C.D. Adaptive measurement strategies for aerospace components inspection. Journal of Aerospace Engineering. 2022. Vol. 35, no. 3. P. 278–291.

Wang H., Li Y., Zhang C. Advanced calibration method for coordinate measuring machines using laser tracker technology. International Journal of Machine Tools and Manufacture. 2022. Vol. 178. P. 103–118.

Hermann K., Schmidt M. Comprehensive analysis of geometric errors in portal coordinate measuring machines. Precision Engineering. 2023. Vol. 82. P. 245–259.

Chen X., Liu W., Yang J. Thermal deformation modeling of coordinate measuring machines under varying environmental conditions. Measurement Science and Technology. 2023. Vol. 34, no. 3. 035001.

Roberts S.A. Multi-sensor temperature compensation system for high-precision dimensional measurements. Journal of Manufacturing Science. 2022. Vol. 45, no. 4. P. 412–427.

Downloads

Published

2024-11-04

How to Cite

Filonenko, S., Larin, V., & Kvashuk, D. (2024). Improving measurement accuracy of aviation parts on a coordinate measuring machine. Problems of Informatization and Control, 3(79), 82–87. https://doi.org/10.18372/2073-4751.79.19375

Issue

Vol. 3 No. 79 (2024)

Section

Статті

License

The scientific journal adheres to the principles of Open Access and provides free, immediate, and permanent access to all published materials without financial, technical, or legal barriers for readers.

All articles are published in Open Access under the Creative Commons Attribution 4.0 International (CC BY 4.0) license.

Copyright

Authors who publish their works in the journal:

  • retain the copyright to their publications;

  • grant the journal the right of first publication of the article;

  • agree to the distribution of their materials under the CC BY 4.0 license;

  • have the right to reuse, archive, and distribute their works (including in institutional and subject repositories), provided that proper reference is made to the original publication in the journal.