Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Wide range of different visual measurement techniques, which are used nowadays, shows the need of the development of geometry description possibilities. New applications of advanced materials require measurement methods, which can be used in the areas of reverse engineering, FEA modelling validation, rapid prototyping and analysis of structure deformations. Light and laser-based techniques such as photogrammetry, laser triangulation, Moire and optical coherence tomography allow for analysing geometry of the specimens. Widely used optical methods take into account the global and local coordinate translation, sensitivity, resolution, and measurement uncertainty. They are used in the respect to research trends such as direct shape measurement from surfaces, system calibration and optimization methods. In this paper, composite specimens’ geometries with artificial delamination inside and structures without delamination are analysed. Rectangular, curved and cylindrical shapes are investigated by 3D scanning technique. The measured composite structures are manufactured with autoclave and vacuum bag methods. Results presented in this paper, shows geometries different between composites manufactured by using these methods. Inspection process was executed in two steps. First, virtual models of the composite specimens are used to determine main geometry dimensions. Second, their curvatures and GD&T are determined. Additional, the thickness change connected with delamination is revealed. Used method gives an opportunity of observing specimens curving radius and manufacturing defects. Presented results shows that use of additional aluminum plate in vacuum bag method allowed to get specimens with high level of flatness and parallelism in the case of rectangular structures and cylindricity in case of the curved shells. Presented methodology of the inspection is simply, give multidimensional results and its application are not limited to laboratory conditions.
Wydawca
Czasopismo
Rocznik
Tom
Strony
31--36
Opis fizyczny
Bibliogr. 36 poz., rys.
Twórcy
autor
- Krakow University of Technology Faculty of Mechanical Engineering Warszawska Street 24, 31-155 Krakow, Poland tel.: +48 12 374-33-85, +48 12 374-33-07, fax: +48 12 6282071
autor
- Krakow University of Technology Faculty of Mechanical Engineering Warszawska Street 24, 31-155 Krakow, Poland tel.: +48 12 374-33-85, +48 12 374-33-07, fax: +48 12 6282071
Bibliografia
- [1] Bere, P., Neamtu, C., Methodology for evaluate the form deviations for formula one nose car, Central European Journal of Engineering, Vol. 4, Is. 2, pp 148-154, 2014.
- [2] Boer P., Holliday L., Kang T. H.-K., Interaction of environmental factors on fiber-reinforced polymer composites and their inspection and maintenance: A review, Construction and Building Materials, Vol. 50, pp. 209-218, 2014.
- [3] Bondyra, A., Chwał. M., Pastuszak, P. D., Prospects of laser measuring scanners applications for analysis of the deformation of composite structures, Przetworstwo Tworzyw, pp. 4-11, 2014.
- [4] Bondyra, A., Chwał, M., Pastuszak, P. D., Stawiarski, A., Analysis of composite structure deformations based on 3D laser scanner measurements, Composites Theory and Practice Vol. 1, pp. 38-42, 2014.
- [5] Dong, Q. G., Ma, J. F., Lin, H., Chen, Ch. Q., Yang, F., Precision Analysis of the Surface Model Based on Geomagic Qualify, Applied Mechanics and Materials, Vol. 490-491, pp. 649- 653, 2014.
- [6] http://www.creaform3d.com/en
- [7] Ibrahim, M. E., Nondestructive evaluation of thick-section composites and sandwich structures: A review, Composites Part A: Applied Science and Manufacturing, Vol. 64, pp. 36-48, 2014.
- [8] Lemes, S., Validation of Numerical Simulations by 3D Scanning: Springback Compensation in 3D Scanning by Finite Element Analysis, LAP Lambert Academic Publishing, 2012.
- [9] Liu, P., Groves, R. M., Benedictus, R., 3D monitoring of delamination growth in a wind turbine blade composite using optical coherence tomography, NDT & E International, Vol. 64, pp. 52-58, 2014.
- [10] Preglej, A., Karba, R., Steiner, I., Škrjanc, I., Mathematical Model of an Autoclave, Strojniški vestnik Journal of Mechanical Engineering, Vol. 57, No.6, pp.503-516, 2011.
- [11] Sevostianov, I. B., Verijenko, V. E., von Klemperer, C. J., Chevallerea, B., Mathematical model of stress formation during vacuum resin infusion process, Composites Part B Engineering, pp. 513-521, 1999.
- [12] Short, G. J., Guild, F. J., Pavier M. J., The effect of delamination geometry on the compressive failure of composite laminate, Composites Science and Technology, Vol. 61, Is. 14, pp. 2075-2086, 2001.
- [13] Vasileios, M. D., Seferis, J. C., Doumanidis, C. C., Curing Pressure Influence of Out-of- Autoclave, Processing on Structural Composites for Commercial Aviation, Advances in Materials Science and Engineering, Vol. 2013, pp. 1-14, 2013.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-cb12d19a-774f-48c7-84b7-993b8d99e868