Identyfikatory
Warianty tytułu
Zastosowanie metod pomiaru odkształceń w pełnym polu w procedurach walidacji oraz testowania
Języki publikacji
Abstrakty
Full-field measurement methods are becoming commonly used in examination procedures. Features like: non-contact testing, rich data output, static and dynamic measurement make them reliable tools, especially invalidation of numerical calculation in a design process of components and structures. This paper shows the potential of using full-field optical methods not only in validation process, but also in an inspection of a product in service. Moreover, other applications are mentioned like: damage detection and mixed numerical-experimental techniques. The potential of those methods makes them promising and valuable tools which are expanding in various areas of applications.
Metody pomiaru w pełnym są coraz częściej stosowanym narzędziem w procedurach badawczych. Cechy takie jak: pomiar bezkontaktowy, duża ilość danych pomiarowych, możliwość realizacji pomiarów zjawisk statycznych i dynamicznych sprawiają, że stają się one korzystnym narzędziem w procedurach walidacji obliczeń numerycznych stosowanych w procesie projektowania komponentów oraz struktur. W artykule przedstawiono możliwości użycia metod pomiaru w pełnym polu nie tylko w procesie walidacji, ale również w inspekcji produktu oddanego do eksploatacji. Dodatkowo opisano inne obszary wykorzystania metody takie jak wykrywanie uszkodzeń oraz metody eksperymentalno-numeryczne. Potencjał tych technologii sprawia, iż są obiecującymi oraz cennymi narzędziami, których cechy umożliwiają wykorzystanie ich w szerokim zakresie zastosowań.
Czasopismo
Rocznik
Tom
Strony
46--51
Opis fizyczny
Bibliogr. 23 poz., rys., schem.,
Twórcy
autor
- Project Management Division, Centre for Composite Materials, Institute of Aviation, Al. Krakowska 110/114, 02-256 Warsaw, Poland
Bibliografia
- [1] ASME V&V Guide for verification & validation in computational solid mechanics, 2006, American Society of Mechanical Engineers, New York
- [2] Patterson, E. A., Feligiotti, M., Hack, E., 2012, "On Ihe integration of validation, quality assurance and non-destructive evaluation". The Journal of Strain Analysis for Engineering Design 0(0), pp. 1-11.
- [3] Grediac, M., 2004, "The use of full-field measurement methods in composite material characterization: interest and limitations". Composites: Part A, 35, pp. 751-761.
- [4] Leone, F. A., Bakuckas, J. G., Shyprykevich, P., Davies, C, 2008, "Structural Testing and Analysis of Honeycomb Sandwich Composite Fuselage Panels", DOT/FAA/AR-08/51, Federal Aviation Administration, U. S. Department of Transportation.
- [5] Lampeas, G., Siebert, Th., 2010, "Validation of non-linear dynamic simulations through full field optical methods", EPJ Web of Conferences 6, 46007.
- [6] Rytter, A., 1993, "Vibration based inspection of civil engineering structures", PhD thesis, Aalborg University.
- [7] Grattan, K. T. V and Sun, T., 2000, "Fiber optic sensor technology: an overview". Sensors and Actuators 82, pp. 40-61.
- [8] Staszewski, W., Boiler, Ch. and Tomlinson, G., 2004, Health Monitoring of Aerospace Structures, John Willey & Sons, Ltd.
- [9] Patki, A. S. and Patterson, E. A., 2012, "Decomposing Strain Maps Using Fourier-Zernike Shape Descriptors", Experimental Mechanics 52, pp. 1137-1149.
- [10] Sebastian, Ch., Hack, E., Patterson, E., 2012, "An approach to the validation of computational solid mechanics models for strain analysis". The Journal of Strain Analysis for Engineering Design 48(1) pp. 36-47.
- [11]Araujo, A. L., Mota Soares, CM., Moreira de Freitas, M. J., Pedersen and P., Herskovits, J., 2000, "Combined numerical-experimental model for the identification of mechanical properties of laminated structures". Composite Structures 50, pp. 363-370.
- [12] Avril, S., Pierron, F., 2007, "General framework for the identification of constitutive parameters from full-field measurements in linear elasticity", International Journal of Solids and Structures, 44, pp. 4978-5002
- [13] Bonnet, M., Constantinescu, A., 2005, "Inverse problems in elasticity". Inverse Problems, Institute of Physics: Hybrid Open Access, 21, pp. R1-R50.
- [14] Dennis, B. H., Jin, W., Dulikravich, G.S., Jaric, J., 2011, "Application of the Finite Element Method to Inverse Problems in Solid Mechanics", International Journal Of Structural Changes In Solids, 3(2), pp. 11-21.
- [15] Lecompte, D., Smits, A., Sol, H., Vantomme, J., Van Hemelrijck, D., 2007, "Mixed numerical-experimental technique for orthotropic parameter identification using biaxial tensile tests on cruciform specimens". International Journal of Solids and Structures, 44. pp. 1643-1656.
- [16] Geers, M. G. D., de Borst, R., Peijs, T., 1999, "Mixed numerical-experimental identification of non-local characteristics of random-fibre-reinforced composites". Composites Science and Technology, 59, pp. 1569-1578.
- [17] Latourte, E., Chrysochoos, A., Pagano, S., Wattrisse, B., 2008, "Elastoplastic behavior identification for heterogeneous loadings and materials", Experimental Mechanics, 48, pp. 435-449.
- [18] Cooreman, S., Lecompte, D., Sol, H., Vantomme, J., Debruyne, D., 2008, "Identification of Mechanical Material Behavior Through Inverse Modeling and DIC". Experimental Mechanics, 48, pp. 421-433.
- [19] Goidescu, C., Welemane, H., Garnier, Ch., Fazzini, M., Brault, R., Peronnet, E., Mistou, S., 2013, "Damage investigation in CFRP composites using full-field measurement techniques: combination of digital image stereo-correlation, infrared thermography and Xray tomography". Composites Part B: Engineering, vol. 48, pp. 95-105.
- [20] Dantec Dynamics, NDT Inspection on composites with shaerography. Digital Shearography NDT System Q-800, Product manual.
- [21] CMH-17, Composite materials handbook volume 3. Polymer matrix composites: materials usage, design and analysis, 2012, SAE International
- [22] Klata, E., Krucińska, I., Kujawińska, M. and Dymny, G., 2002, "Analysis of hybrid composite properties by grating interferometry method". Composites 24, pp. 143-149.
- [23] Canal, L. P., Gonzalez, C., Molina-Aldareguia, J. M., Segurado, J. and L. Lorca, J., 2012, "Application of digital image correlation at the microscale in fiber-reinforced composites". Composites Part A: Applied Science and Manufacturing, 43(10), pp. 1630-1638.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ab89e63f-c980-4b2c-8005-6d2c88ca2b12