Issue 27

L. Vergani et alii, Frattura ed Integrità Strutturale, 27 (2014) 1-12 ; DOI: 10.3221/IGF-ESIS.27.01 11 R EFERENCES [1] Bathias, C., An engineering point of view about fatigue of polymer matrix composite materials, International Journal of Fatigue, 28 (2006) 1094-1099. [2] Gamstedt, E. K., Talreja, R., Fatigue damage mechanisms in unidirectional carbon-fibre-reinforced plastics, Journal of Materials Science, 34 (1999) 2535-2546. [3] Keller, T., Tirelli, T., Zhou, A., Tensile fatigue performance of pultruded glass fiber reinforced polymer profiles, Composite Structures, 68 (2005) 235-245. [4] Wu, Y., Polymer Microscopy. Third Edition. Eds: L.C. Sawyer, D.T. Grubb, G.F. Meyers. Springer, New York; (2008). ISBN 978-0-387-72627-4. Microscopy and Microanalysis, 15 (2009) 265-265. [5] Maldague, X., Theory and practice of infrared technology for nondestructive testing, Wiley (2001). [6] Armstrong, K. B., Bevan, L. G., Cole, W. F., Care and repair of advanced composites. SAE International (2005). [7] Dulieu-Barton, J. M., Stanley P., Development and applications of thermoelastic stress analysis, The Journal of Strain Analysis for Engineering Design, 33 (1998) 93-104. [8] Quinn, S., Dulieu-Barton, J. M., Langlands, J. M., Progress in Thermoelastic Residual Stress Measurement, Strain, 40 (2004) 127-133. [9] Dulieu-Barton, J. M., Emery, T. R., Quinn, S., Cunningham, P. R., A temperature correction methodology for quantitative thermoelastic stress analysis and damage assessment, Measurement Science and Technology, 17 (2006) 1627. [10] Emery, T. R., Dulieu-Barton, J. M., Thermoelastic Stress Analysis of damage mechanisms in composite materials, Composites Part A: Applied Science and Manufacturing, 41 (2010) 1729-1742. [11] Salerno, A., Costa, A., Fantoni, G., Calibration of the thermoelastic constants for quantitative thermoelastic stress analysis on composites, Review of Scientific Instruments, (2009) 80. [12] Greene, R., Patterson, E., Rowlands, R., Thermoelastic Stress Analysis. In: Springer Handbook of Experimental Solid Mechanics, ed. W. N. Sharpe, Jr., (2008) 743-768. [13] Thomson, W., On the thermoelastic, thermomagnetic, and pyroelectric properties of matter. Philosophical Magazine Series 5, 5 (1878) 4-27. [14] Stanley, P., Chan W. K., The application of thermoelastic stress analysis techniques to composite materials, The Journal of Strain Analysis for Engineering Design, 23 (1988) 137-143. [15] Emery, T. R., Dulieu-Barton, J. M., Earl, J. S., Cunningham, P. R., A generalised approach to the calibration of orthotropic materials for thermoelastic stress analysis, Composites Science and Technology, 68 (2008) 743-752. [16] Clienti, C., Fargione, G., La Rosa, G., Risitano A., Risitano G., A first approach to the analysis of fatigue parameters by thermal variations in static tests on plastics, Engineering Fracture Mechanics, 77 (2010) 2158-2167. [17] Colombo, C., Libonati, F., Vergani, L., Fatigue damage in GFRP, International Journal of Structural Integrity, 3 (2012) [18] Libonati, F., Vergani, L., Damage assessment of composite materials by means of thermographic analyses, Composites Part B: Engineering, 50 (2013) 82-90. [19] Colombo, C., Vergani, L., Burman, M., Static and fatigue characterisation of new basalt fibre reinforced composites. Composite Structures, 94 (2012) 1165-1174. [20] La Rosa, G., Risitano, A., Thermographic methodology for rapid determination of the fatigue limit of materials and mechanical components, International Journal of Fatigue, 22 (2000) 65-73. [21] Brémond, P., IR imaging assesses damage in mechanical parts: determining the fatigue limit of real structures under real operating conditions saves time. Photonics Spectra (2004). [22] Breitenstein, O., Langenkamp, M., Lock-In Thermography: Basics and use for functional diagnostics of electronic components. Springer (2003). [23] Montesano, J., Fawaz, Z., Bougherara, H., Use of infrared thermography to investigate the fatigue behavior of a carbon fiber reinforced polymer composite, Composite Structures, 97 (2013) 76-83. [24] Minak, G., On the determination of the fatigue life of laminated graphite-epoxy composite by means of surface temperature measurement, Journal of Composite Materials, (2010). [25] ASTM D3039/D3039M-08, Standard test method for tensile properties of polymer matrix composite materials, (2008). [26] ASTM D3518M-94, Standard test method for in-plane shear response of polymer matrix composite materials by tensile test of a ±45° laminate, (2007).