PSI - Issue 28

M.Z. Sadeghi et al. / Procedia Structural Integrity 28 (2020) 1590–1600 M.Z. Sadeghi et al./ Structural Integrity Procedia 00 (2020) 000–000

1600

Crocombe, A., Ong, C., Chan, C., Wahab, M.A., Ashcroft, I., 2002a. Investigating fatigue damage evolution in adhesively bonded structures using backface strain measurement. J Adhes 78, 745-776. Crocombe, A.D., Ong, C.Y., Chan, C.M., Wahab, M.M.A., Ashcroft, I.A., 2002b. Investigating Fatigue Damage Evolution In Adhesively Bonded Structures Using Backface Strain Measurement. J Adhes 78, 745-776. Da Silva, L.F.M., Öchsner, A., Adams, R.D., 2018. Handbook of adhesion technology-2nd edition. Springer, Heidelberg. Gozdecki, C., Smardzewski, J., 2005. Detection of failures of adhesively bonded joints using the acoustic emission method. Holzforschung 59, 219-229. Graner Solana, A., Crocombe, A.D., Ashcroft, I.A., 2010. Fatigue life and backface strain predictions in adhesively bonded joints. Int J Adhes Adhes 30, 36-42. Guo, Y.L., Ogin, S., Capell, T., Thorne, A., Reed, G., Wang, Y.S., Tjin, S., 2009. Effect of disbond propagation on the reflected spectra of CFBG sensors embedded within the bondline of composite bonded joints, Advanced Materials Research. Trans Tech Publ, pp. 2067-2070. Guyott, C.C.H., Cawley, P., Adams, R., 1986. The non-destructive testing of adhesively bonded structure: a review. J Adhes 20, 129-159. Ihn, J.-B., Chang, F.-K., 2004. Detection and monitoring of hidden fatigue crack growth using a built-in piezoelectric sensor/actuator network: I. Diagnostics. Smart materials and structures 13, 609. Khoramishad, H., Crocombe, A.D., Katnam, K.B., Ashcroft, I.A., 2010. Predicting fatigue damage in adhesively bonded joints using a cohesive zone model. International Journal of Fatigue 32, 1146-1158. Martens, U., Schröder, K.-U., 2020. Evaluation of infrared thermography methods for analysing the damage behaviour of adhesively bonded repair solutions. Compos Struct 240, 111991. Shenoy, V., Ashcroft, I.A., Critchlow, G.W., Crocombe, A.D., Abdel Wahab, M.M., 2009. An investigation into the crack initiation and propagation behaviour of bonded single-lap joints using backface strain. Int J Adhes Adhes 29, 361-371. Solana, A.G., Crocombe, A.D., Wahab, M.M.A., Ashcroft, I.A., 2007. Fatigue initiation in adhesively-bonded single-lap joints. J Adhes Sci Tech 21, 1343-1357. Stepinski, T., Uhl, T., Staszewski, W., 2013. Advanced structural damage detection: from theory to engineering applications. John Wiley & Sons. Sugiman, S., Crocombe, A.D., Aschroft, I.A., 2013. Experimental and numerical investigation of the static response of environmentally aged adhesively bonded joints. Int J Adhes Adhes 40, 224-237. Tashakori, S., Baghalian, A., Senyurek, V.Y., Unal, M., McDaniel, D., Tansel, I.N., 2018. Implementation of heterodyning effect for monitoring the health of adhesively bonded and fastened composite joints. Applied Ocean Research 72, 51-59. Toyama, N., Yamamoto, T., Urabe, K., Tsuda, H., 2019. Ultrasonic inspection of adhesively bonded CFRP/aluminum joints using pulsed laser scanning. Advanced Composite Materials 28, 27-35. Zhang, Z., Shang, J.K., Lawrence, F.V., 1995. A Backface Strain Technique for Detecting Fatigue Crack Initiation in Adhesive Joints. J Adhes 49, 23-36.