Adhesive bonding of composite aircraft structures: Challenges and recent developments

Katham K B, Da Silva L F M, Young T M. Bonded repair of composite aircraft structures: A review of scientific challenges and opportunities. Prog Aerospace Sci, 2013, http://dx.doi.org/10.1016/j.paerosci . 2013. 03. 003

Banea M D, Da Silva L F M. Adhesively bonded joints in composite materials: an overview. Proc IMechE Part L-J Mater Design Appl, 2009, 223: 1–18

Parashar A, Mertiny P. Adhesively bonded composite tubular joints: Review. Int J Adhesion Adhesives, 2012, 28: 58–68

Abdel Wahab M M. Fatigue in adhesively bonded joints: A review. ISRN Mater Sci, 2012, 2012: 1–25

Baldan A. Adhesively-bonded joints and repairs in metallic alloys, polymers and composite materials: Adhesives, adhesion theories and surface pretreatment. J Mater Sci, 2004, 39: 1–49

Pitt S, Jones R, Peng D. Characterization of the durability of adhesive bonds. Fatigue Fract Eng Mater Struct, 2012, 35: 998–1006

Su N, Mackie R I, Harvey W J. The effects of ageing and environment on the fatigue life of adhesive joints. Int J Adhes Adhes, 1992, 12: 85–93

Wylde J W, Spelt J K. Measurement of adhesive joint fracture properties as a function of environmental degradation. Int J Adhes Adhes, 1998, 18: 237–246

Lu Z, Wang P, Lin J, et al. Effect of moisture content in uncured adhesive on static strength of bonded galvanized DP600 steel joints. Int J Adhes Adhes, 2011, 31: 202–208

Halliday S T, Banks W M, Pethrick R A. Dielectric studies of adhesively bonded CFRP/epoxy/CFRP structures-design for ageing. Compos Sci Technol, 2000, 60: 197–207

Datla N V, Papini M, Ulicny J, et al. The effects of test temperature and humidity on the mixed-mode fatigue behavior of a toughened adhesive aluminum joint. Eng Fract Mech, 2011, 78: 1125–1139

Katsiropoulos Ch V, Chamos A N, Tserpes K I, et al. Fracture toughness and shear behaviour of composite bonded joints based on a novel aerospace adhesive. Composites Part B-Eng, 2012, 43: 240–248

Epibond 1590 A/B aerospace structural adhesive, technical data sheet by HUNTSMAN, 2006

AITM1-1. 0053, Airbus test method: determination of fracture toughness energy of CFRP bonded joints — mode I, 2006

AITM1-1. 0006, Airbus test method: determination of fracture toughness energy of CFRP bonded joints — mode II, 2006

Sih G C. Mechanics of Fracture Initiation and Propagation: Surface and Volume Energy Density Applied as Failure Criterion. Kluwer Academic Publishers, 1991

Joshi S B, Gray T F, Banks W M, et al. Environmental ageing of adhesively-bonded joints. II. Mechanical studies. J Adhesion, 1997, 62: 317–335

Aydin M D, Temiz S, Özel A. Effect of curing pressure on the strength of adhesively bonded joints. J Adhesion, 2007, 83: 553–571

Jeenjitkaew C, Luklinska Z, Guild F. Morphology and surface chemistry of kissing bonds in adhesive joints produced by surface contamination. Int J Adhes Adhes, 2010, 30: 643–653

Parker B M. Surface pretreatment of carbon fibre-reinforced composites for adhesive bonding. Composites, 1982, 13: 280–288

Comyn J. Durability of Structural Adhesives. In: Kinloch A J, ed. London and New York: Applied Science Publishers, 1983. 85–129

Drain F, Guthrie J, Leung C L, et al. The effect of moisture on the strength of steel-steel cyanoacrylate adhesive bonds. Int J Adhes Adhes, 1984, 17: 71–81

Frigione M, Aiello M A, Naddeo C. Water effects on the bond strength of concrete/concrete adhesive joints. Constr Build Mater, 2006, 20: 957–970

Comyn J, Groves C L, Saville R W. Durability in high humidity of glass-to-lead alloy joints bonded with an epoxide adhesive. Int J Adhes Adhes, 1994, 14: 15–20

Cognard J. Influence of water on the cleavage of the adhesive joints. Int J Adhes Adhes, 1988, 8: 93–99

Markatos D N, Tserpes K I, Rau E, et al. The effects of manufacturing-induced and in-service related bonding quality reduction on the mode-I fracture toughness of composite bonded joints for aeronautical use. Composites Part B-Eng, 2013, 45: 556–564

ISO 15024. Fibre-reinforced plastic composites — determination of mode I interlaminar fracture toughness, GIC, for unidirectionally reinforced materials, 2001

ISO 25217. Adhesives — determination of the mode 1 adhesive fracture energy of structural adhesive joints using double cantilever beam and tapered double cantilever beam specimens, 2009

Tserpes K I, Ruzek R, Pantelakis S. Strength of Pi-shaped non-crimp fabric adhesively bonded joints. Plastics Rubber Composites, 2012, 41: 100–106

Sun S Y, Chen H R. The interfacial fracture behavior of foam core composite sandwich structures by a viscoelastic cohesive model. Sci China-Phys Mech Astron, 2011, 54: 1481–1487

Tserpes K I, Cinquin J, Pantelakis S. On the mechanical performance of H-shaped non-crimp fabric adhesively bonded joints. J Composite Mater, 2011, 45: 1607–1619

Tserpes K I, Koumpias A S, Pantelakis S. Numerical optimization of composite multi-functional joining profiles with respect to strength. Int J Terraspace Sci Eng, 2012, 5: 77–82

Guo B Q, Xie H M, Zhu J G, et al. Study on the mechanical behavior of adhesive interface by digital image correlation. Sci China-Phys Mech Astron, 2011, 54: 547–580

Design Optimization, Release 11. 0 Documentation for ANSYS©, 2009