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References
- Liu J, Sawa T, Toratani H. A two-dimensional stress analysis of single-lap adhesive joints subjected to external bending moments. J Adhes Sci Technol. 1998;12(8):795–812.
- Esmaeili E, Razavi SMJ, Bayat M, et al. Flexural behavior of metallic fiber-reinforced adhesively bonded single lap joints. J Adhes. 2018;94(6):453–472.
- Liu J, Sawa T. Stress analysis and strength evaluation of single-lap band adhesive joints subjected to external bending moments. J Adhes Sci Technol. 1999;13(6):729–749.
- Nakano H, Sekiguchi Y, Sawa T. FEM stress analysis and strength prediction of scarf adhesive joints under static bending moments. Int J Adhes Adhes. 2013;44:166–173.
- Ozel A, Aydin MD, Temiz S. The effects of overlap length and adherend thickness on the strength of adhesively bonded joints subjected to bending moment. J Adhes Sci Technol. 2004;18(3):313–325.
- Akpinar S, Aydin MD. 3-D non-linear stress analysis on the adhesively bonded composite joint under bending moment. Int J Mech Sci. 2014;81:149–157.
- Akpinar S. The Effect of composite patches on the failure of adhesively-bonded joints under bending moment. Appl Compos Mater.. 2013;20(6):1289–1304.
- Azam A, Mubashar A, Ashcroft IA, et al. A numerical study of the effect of ply-layup on the strength and stiffness of a composite T-joint under three point bending. J Adhes Sci Technol. 2017;31(19–20):2124–2138.
- Akpinar IA, Gültekin K, Akpinar S, et al. Research on strength of nanocomposite adhesively bonded composite joints. Comp Part B: Eng. 2017;126:143–152.
- Demiral M, Kadioglu F. Failure behaviour of the adhesive layer and angle ply composite adherends in single lap joints: a numerical study. Int J Adhes Adhes. 2018;87:181–190.
- Simulia DS. ABAQUS 6.13 user’s manual. Providence, RI: Dassault Systems; 2013
- González EV, Maimí P, Camanho PP, et al. Simulation of drop-weight impact and compression after impact tests on composite laminates. Comp Struct. 2012;94(11):3364–3378.
- Yang Q, Cox B. Cohesive models for damage evolution in laminated composites. Int J Fract. 2005;133(2):107–137.
- Topac OT, Gozluklu B, Gurses E, et al. Experimental and computational study of the damage process in CFRP composite beams under low-velocity impact. Comp Part A: Appl Sci Manufact. 2017;92:167–182.
- Lopes CS, Camanho PP, Gürdal Z, et al. Low-velocity impact damage on dispersed stacking sequence laminates. Part II: Numerical simulations. Comp Sci Technol. 2009;69(7–8):937–947.
- Zhang C, Li N, Wang W, et al. Progressive damage simulation of triaxially braided composite using a 3D meso-scale finite element model. Comp Struct. 2015;125:104–116.
- Benzeggagh ML, Kenane M. Measurement of mixed-mode delamination fracture toughness of unidirectional glass/epoxy composites with mixed-mode bending apparatus. Comp Sci Technol. 1996;56(4):439–449.
- Bettini P, Airoldi A, Sala G, et al. Composite chiral structures for morphing airfoils: numerical analyses and development of a manufacturing process. Comp Part B: Eng. 2010;41(2):133–147.
- Zhong WH, Zhamu A, Aglan H, et al. Effect of residual stresses on fatigue crack growth behavior of aluminum substrate repaired with a bonded composite patch. J Adhes Sci Technol. 2005;19(12):1113–1128.
- Kadioglu F, Adams R. Non-linear analysis of a ductile adhesive in the single lap joint under tensile loading. J Reinforced Plastics Comp. 2009;28(23):2831–2838.
- Moreno MS, Gutiérrez AR, Vicente JM. Different response under tension and compression of unidirectional carbon fibre laminates in a three-point bending test. Comp Structures. 2016;136:706–711.
- Machado JJM, Marques EAS, da Silva L. Mechanical behaviour of adhesively bonded composite single lap joints under quasi-static and impact conditions with variation of temperature and overlap. J Comp Mater. 2018;52(26):3621–3635.