PSI - Issue 45

James Martin Hughes et al. / Procedia Structural Integrity 45 (2023) 44–51 Author name / Structural Integrity Procedia 00 (2019) 000 – 000

51

8

References Ashbaugh, N. E., Dattaguru, B., Khobaib, M., Nicholas, T., Prakash, R. V., Ramamurthy, T. S., Seshadri, B. R. and Sunder, R., 1997. Experimental and analytical estimates of fatigue crack closure in an aluminium-copper alloy part II: A finite element analysis. Fatigue & Fracture of Engineering Materials & Structures 20, 963-974. ASTM Standards, 2009. Standard test method for measurement of fatigue crack growth rates. In: Annual Book of ASTM Standards, 647-08. Borrego, L. P., Antunes, F. V., Costa, J. D. and Ferreira, J. M., 2012. Numerical simulation of plasticity induced crack closure under overloads and high-low blocks. Engineering Fracture Mechanics 95, 57-71. Breat, J. L., Mudry, F. and Pineau, A., 1983. Short crack propagation and closure effects in A508 steel. Fatigue of Engineering Materials and Structures 6, 349-358. Codrington, J., Kotousov, A., 2007. The distributed dislocation technique for calculating plasticity-induced crack closure in plates of finite thickness. International Journal of Fracture 144(4), 285 – 295. Elber, W., 1970. Fatigue crack closure under cyclic tension. Engineering Fracture Mechanics 2, 37-45. Elber, W., 1971. The significance of fatigue crack closure. Damage tolerance of aircraft structures. ASTM STP 486, 230-242. Fleck, N. A., Smith, I. F. C. and Smith, R. A., 1983. Closure behaviour of surface cracks. Fatigue of Engineering Materials and Structures 6, 225-239. Kikukawa, M., Jono, M. and Tanaka, K., 1976. Fatigue crack closure behaviour at low stress intensity levels. ICM 2, 254-277. Louat, N., Sadananda, K., Duesbery, M. and Vasudevan, A. K., 1993. A theoretical evaluation of crack closure. Metallurgical Transactions A 24A, 2225-2232. de Matos, P. F. P. and Nowell, D., 2009. Experimental and numerical investigation of thickness effects in plasticity-induced fatigue crack closure. International Journal of Fatigue 31, 1795-1804. Model 740B02 ICP piezoelectric strain sensor, titanium hsg: installation and operating manual, PCB Piezotronics, 2021. Moreno, B., Lopez-Crespo, P., Cruces, A. S. and Dominguez, J., 2019. Estimation of the opening load under variable amplitude loading. Fatigue & Fracture of Engineering Materials & Structures 42, 2195-2204. Nowell D. and de Matos, P. F. P., 2010. Application of digital image correlation to the investigation of crack closure following overloads. Procedia Engineering 2, 1035-1043. Okayasu, M., Chen D. and Wang, Z., 2006. Experimental study of the effect of loading condition on fracture surface contact features and crack closure behavior in a carbon steel. Engineering Fracture Mechanics 73, 1117-1132. Paris, P. and Erdogan, F., 1963. A critical analysis of crack propagation laws. Journal of Basic Engineering, Dec., 528-533. Pippan, R. and Hohenwarter, A., 2017. Fatigue crack closure: a review of the physical phenomena. Fatigue & Fracture of Engineering Materials & Structures 40, 471-495. Sehitoglu, H., 1985. Crack opening and closure in fatigue. Engineering Fracture Mechanics 21, 329-339. Song, J. H. and Chung, Y. I., 2010. A review of crack closure measurement by compliance technique and the normalized-extended ASTM method as a currently most refined, practical and simple one. Procedia Engineering 2, 777-786. Vasudeven, A. K., Sadananda, K. and Louat, N., 1994. A review of crack closure, fatigue crack threshold and related phenomena. Materials Science and Engineering A188, 1-22. Vasudevan, A. K., Sadananda K. and Glinka, G., 2001. Critical parameters for fatigue damage. International Journal of Fatigue 23, 39-53. Vormwald M., and Seeger, T., 1991. The consequences of short crack closure on fatigue crack growth under variable amplitude loading. Fatigue & Fracture of Engineering Materials & Structures 14, 205-225. Wallbrink, C., Hughes, J. M. and Kotousov, A., 2023. Application of an advanced piezoelectric sensor for crack closure measurements. International Journal of Fatigue 167, 107286. White, P. D., Barter, S. A. and Medhekar, N., 2018. Comparison of fatigue crack growth stress ratio effects under simple variable amplitude loading using fractographic and strain measurements. International Journal of Fatigue 112, 240-252.