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Analiza deformacji struktur kompozytowych z wykorzystaniem pomiarów skanerem laserowym 3D
Języki publikacji
Abstrakty
Non-contact measuring techniques are nowadays widely used in many applications from industry to the laboratory testing of advanced materials. The present paper is dedicated to the laser measurement scanning technique being one of the 3D active vision measurement non-contact systems. In order to analyze the deformations of a composite structure, 3D virtual models of an unloaded and loaded composite sample are created from 3D scanning data. The results of the deformation analysis are presented in the form of contours of the 3D deviations. Additionally, a comparison between the virtual images of the intact and delaminated areas of the analyzed composite structure is presented.
Techniki pomiarów bezstykowych są obecnie szeroko stosowane, od aplikacji przemysłowych po laboratoryjne badania zaawansowanych materiałów. Prezentowana praca dotyczy techniki laserowych pomiarów skaningowych będących jednym z wizyjnych aktywnych systemów pomiarów bezstykowych. W celu analizy deformacji struktur kompozytowych wykonano wirtualne modele 3D nieobciążonej i obciążonej próbki kompozytowej z danych ze skaningu 3D. Wyniki analizy deformacji zaprezentowano w formie map odchyłek 3D. Dodatkowo zaprezentowano porównanie obrazów wirtualnych obszaru nienaruszonego i obszaru z delaminacją dla badanej struktury kompozytowej.
Czasopismo
Rocznik
Tom
Strony
38--42
Opis fizyczny
Bibliogr. 17 poz., rys., tab.
Twórcy
autor
- Cracow University of Technology, Institute of Machine Design, al. Jana Pawła II 37, 31-864 Krakow, Poland
autor
- Cracow University of Technology, Institute of Machine Design, al. Jana Pawła II 37, 31-864 Krakow, Poland
autor
- Cracow University of Technology, Institute of Machine Design, al. Jana Pawła II 37, 31-864 Krakow, Poland
autor
- Cracow University of Technology, Institute of Machine Design, al. Jana Pawła II 37, 31-864 Krakow, Poland
Bibliografia
- [1] Yang J., Peng C., Xiao J., Zeng J., Yuan Y., Application of videometric technique for deformation measurement for large-scale composite wind turbine blade, Applied Energy 2012, 98, 292-300.
- [2] El-Hakim S.F., Beraldin J.-A., Blais F., A comparative evaluation of passive and active 3-D vision systems, Proc. Dig. Photogram., St-Petersburg 1995, 25-30.
- [3] Beraldin J.-A., El-Hakim S.F., Blais F., Performance evaluation of three active vision systems built at the national research council of Canada, Proceedings of the Conference on Optical 3D Measurements Techniques 1995, 352-361.
- [4] Jecić S., Drvar N., The assessment of structured light and laser scanning methods in 3D shape measurements, 4th International Congress of Croatian Society of Mechanics 2003, Bizovac, Croatia.
- [5] Bondyra A., Chwał M., Pastuszak P. D., Prospects of laser measuring scanners applications for analysis of deformation of composite structures, Przetwórstwo Tworzyw Sztucznych 2014 [in press][in Polish].
- [6] Brajlih T., Tasic T., Drstvensek I., Valentan B., Hadzistevic M., Pogacar V., Balic J., Acko B., Possibilities of using three-dimensional optical scanning in complex geometrical inspection, Strojniski Vestnik - Journal of Mechanical Engineering 2011, 57, 11, 826-833.
- [7] Willis A., Speicher J., Cooper D.B., Rapid prototyping 3D objects from scanned measurement data, Image and Vision Computing 2007, 25, 7, 1174-1184.
- [8] Ge Fang W., Yan Mei L., Ning H., Dong Z., Simplification method and application of 3D laser scan point cloud data, Proceedings of the 1st International Conference on Mechanical Engineering and Material Science 2012, 266-268.
- [9] Kuş A., Implementation of 3D optical scanning technology for automotive applications, Sensors 2009, 9(3), 1967-1979.
- [10] http://www.creaform3D.com/en
- [11] Barbero B.R., Ureta E.S., Comparative study of different digitization techniques and their accuracy, Journal Computer-Aided Design 2011, 43, 2, 188-206.
- [12] Allard P.H., Lavoie J.A., Fraser J.-S., Improvement of aircraft mechanical damage inspection with advanced 3D imaging technologies, 5th International Symposium on NDT in Aerospace 2013, Singapore.
- [13] Karczewski M., Koliński K., Walentynowicz J., Optical analysis of failure of combustion, Engines elements, Journal of KONES Powertrain and Transport 2011, 18, 1, 237-242.
- [14] Besl P.J., McKay N.D., A Method for registration of 3D shapes, Journal IEEE Transactions on Pattern Analysis and Machine Intelligence - Special issue on interpretation of 3D scenes - part II archive 1992, 14, 2, 239-256.
- [15] Yogeswaran A., Payeur P., 3D surface analysis for automated detection of deformations on automotive body panels, [In:] New Advances in Vehicular Technology and Automotive Engineering, eds. Joao Paulo Carmo, Joao Eduardo Ribeiro, 2012.
- [16] Geomagic Qualify 2013, Interactive User Guide 2013.
- [17] Hammett P.C., Geddes S.W., Walsh P.T., Quantifying Alignment Effects in 3D Coordinate Measurement 2009, University of Michigan Transportation Research Institute, Technical Report.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3b08d166-628b-433f-9bd8-e81393599c9f