Issue 33

M. Mokhtari et alii, Frattura ed Integrità Strutturale, 33 (2015) 143-150; DOI: 10.3221/IGF-ESIS.33.18 150 [3] Sutton, M.A., Wolters, W.J., Peters, W.H., Ranson, W.F., McNeill, S.R., Determination of displacements using an improved digital correlation method, Image and Vision Computing, 1(3) (1983) 133-139. [4] Pan, B., Qian, K., Xie, H., Asundi, A., Two-dimensional digital image correlation for in-plane displacement and strain measurement: a review, Measurement Science and Technology, 20(6) (2009) 062001. [5] Pan, B., Xie, H., Wang, Z., Qian, K., Wang, Z., Study on subset size selection in digital image correlation for speckle patterns, Optics express, 16(10) (2008) 7037-7048. [6] Roux, S., Réthoré, J., Hild, F., Digital image correlation and fracture: an advanced technique for estimating stress intensity factors of 2D and 3D cracks, Journal of Physics D: Applied Physics, 42(21) (2009) 214004. [7] Lopez-Crespo, P., Shterenlikht, A., Yates, J.R., Patterson, E.A., Withers, P.J., Some experimental observations on crack closure and crack-tip plasticity, Fatigue and fracture of engineering materials and structures, 32 (2009) 418-429. [8] Yates, J.R., Zanganeh, M., Tai, Y.H., Quantifying crack tip displacement fields with DIC, Engineering Fracture Mechanics, 77(11) (2010) 2063-2076. [9] Fazzini, M., Mistou, S., Dalverny, O., Robert, L., Study of image characteristics on digital image correlation error assessment, Optics and Lasers in Engineering, 48(3) (2010) 335-339. [10] Schreier, H., Sutton, M., Systematic errors in digital image correlation due to undermatched subset shape functions, Experimental Mechanics, 42(3) (2002) 303-310. [11] Schreier, H.W., Braasch, J.R., Sutton, M.A., Systematic errors in digital image correlation caused by intensity interpolation, Optical Engineering, 39(11) (2000) 2915-2921. [12] Yu, L., Pan, B., The errors in digital image correlation due to overmatched shape functions, Measurement Science and Technology, 26 (2015) 045202-045202. [13] Hild, F., Roux, S., Digital image correlation: from displacement measurement to identification of elastic properties–a review, Strain, 42(2) (2006) 69-80. [14] Yoneyama, S., Ogawa, T., Kobayashi, Y., Evaluating mixed-mode stress intensity factors from full-field displacement fields obtained by optical methods, Engineering Fracture Mechanics, 74 (2007) 1399-1412. [15] Lopez-Crespo, P., Shterenlikht, A., Patterson, E.A., Withers, P.J., Yates, J.R., The stress intensity of mixed mode cracks determined by digital image correlation, Journal of Strain Analysis for Engineering Design, (2008) 43. [16] McNeill, S.R., Peters, W.H., Sutton, M.A., Estimation of stress intensity factor by digital image correlation, Engineering Fracture Mechanics, 28(1) (1987) 101-112. [17] Hamam, R., Hild, F., Roux, S., Stress intensity factor gauging by digital image correlation: Application in cyclic fatigue, Strain, 43(3) (2007) 181-192. [18] Lopez-Crespo, P., Burguete, R.L., Patterson, E.A., Shterenlikht, A., Withers, P.J., Yates, J.R., Study of a crack at a fastener hole by digital image correlation, Experimental Mechanics, 49 (2009) 551-559. [19] Vasco-Olmo, J.M., Díaz, F.A., García-Collado, A., Dorado-Vicente, R., Experimental evaluation of crack shielding during fatigue crack growth using digital image correlation, Fatigue and Fracture of Engineering Materials and Structures, 38 (2015) 223-237. [20] Vanlanduit, S., Vanherzeele, J., Longo, R., Guillaume, P., A digital image correlation method for fatigue test experiments, Optics and Lasers in Engineering, 47(3-4) (2009) 371-378. [21] Sutton, M.A., Orteu, J.J., Schreier, H., Image Correlation for Shape, Motion and Deformation Measurements, (2009). [22] American Society of T, Materials, Standard methods for the measurement of fatigue crack growth rates E647-95a, 03.01,1999. Annual Book of Standards, E647-95a. 1999;03.01. [23] Murakami, Y., Stress Intensity Factors Handbook. Oxford: Pergamon Press, (1987). [24] Sun, C.-T., Jin, Z.H., Fracture Mechanics. Academic Press, (2012). [25] Soboyejo, W., Mechanical Properties of Engineered Materials. CRC Press, (2002).