Complete analytical solutions for double cantilever beam specimens with bi-linear quasi-brittle and brittle interfaces
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Alfano G, Crisfield MA (2001) Finite element interface models for the delamination analysis of laminated composites: mechanical and computational issues. Int J Numer Methods Eng 50(7):1701–1736
ASTM D3433-99 (2012) Standard test method for fracture strength in cleavage of adhesives in bonded metal joints. ASTM International (2012)
Barenblatt GI (1959) The formation of equilibrium cracks during brittle fracture—general ideas and hypothesis, axially symmetric cracks. J Appl Math Mech 23(3):622–636
Biel A, Stigh U (2008) Effects of constitutive parameters on the accuracy of measured fracture energy using the DCB-specimen. Eng Fract Mech 75:2968–2983
Blackman BRK, Kinloch AJ, Paraschi M, Teo WS (2003a) Measuring the mode I adhesive fracture energy, $${G}_{IC}$$ G IC , of structural adhesive joints: the results of an international round-robin. Int J Adhes Adhes 23:293–305
Blackman BRK, Hadavinia H, Kinloch AJ, Williams JG (2003b) The use of a cohesive zone model to study the fracture of fibre composites and adhesively-bonded joints. Int J Fract 119:25–46
BS ISO 25217:2009 (2009) Adhesives—determination of the mode I adhesive fracture energy of structural adhesive joints using double cantilever beam and tapered double cantilever beam specimens. British Standard
de Morais AB (2013) Mode I cohesive zone model for delamination in composite beams. Eng Fract Mech 109:236–245
de Morais AB (2015) Analysis of the metal adhesively bonded double cantilever beam specimen. Int J Adhes Adhes 61:8–14
de Moura MFSF, Campilho RDSG, Gonçalves JPM (2008) Crack equivalent concept applied to the fracture characterization of bonded joints under pure mode I loading. Compos Sci Technol 68:2224–2230
Dimitri R, Cornetti P, Mantič V, Trullo M, De Lorenzis L (2017) Mode-I debonding of a double cantilever beam: a comparison between cohesive crack modeling and finite fracture mechanics. Int J Solids Struct 124:57–72
Freiman SW, Mulville DR, Mast PW (1973) Crack propagation studies in brittle materials. J Mater Sci 8:1527–1533
Gehlen PC, Popelar CH, Kanninen MF (1979) Modeling of dynamic crack propagation: I. validation of one-dimensional analysis. Int J Fract 15(3):281–294
Hillerborg A, Modéer M, Petersson PE (1976) Analysis of crack formation and crack growth in concrete by means of fracture mechanics and finite elements. Cem Concr Res (Sec. 12.2) 6:773–782
Irwin GR (1956) Onset of fast crack propagation in high strength steel and aluminuim alloys. Sagmore Res Conf Proc 2:289–305
Kanninen MF (1973) An augmented double cantilever beam model for studying crack propagation and arrest. Int J Fract 9(1):83–92
Kanninen MF (1974) A dynamic analysis of unstable crack propagation and arrest in the DCB test specimen. Int J Fract 10(3):415–430
Park K, Paulino GH (2011) Cohesive zone models: a critical review of traction-separation relationships across fracture surfaces. Appl Mech Rev 64:060802-1–060802-20
Rice JR (1968) A path independent integral and the approximate analysis of strain concentration by notches and cracks. J Appl Mech 35:379–386
Ripling EJ, Mostovoy S, Corten HT (1971) Fracture mechanics: a tool for evaluating structural adhesives. J Adhes 3(2):107–123
Shahani AR, Amini Fasakhodi MR (2010) Analytical modelling of dynamic fracture and crack arrest in DCB specimens under fixed displacement conditions. Fatigue Fract Eng Mater Struct 33:436–451
Shahani AR, Forqani M (2004) Static and dynamic fracture mechanics analysis of a DCB specimen considering shear deformation effects. Int J Solids Struct 41:3793–3807
Škec L, Jelenić G (2017) Geometrically non-linear multi-layer beam with interconnection allowing for mixed-mode delamination. Eng Fract Mech 169:1–17
Škec L, Jelenić G, Lustig N (2015) Mixed-mode delamination in 2D layered beam finite elements. Int J Numer Methods Eng 104:767–788
Škec L, Alfano G, Jelenić G (2018) On $${G}_c$$ G c , $${J}_c$$ J c and the characterisation of the mode-I fracture resistance in delamination or adhesive debonding. Int J Solids Struct 144–145:100–122
Sørensen BF, Brethe P, Skov-Hansen P (1996) Controlled crack growth in ceramics: the DCB specimen loaded with pure moments. J Eur Ceram Soc 16:1021–1025
Stigh U (1988) Damage and crack growth anlysis of the double cantilever beam specimen. Int J Fract 37:R13–R18
Suo Z, Bao G, Fan B (1992) Delamination R-curve phenomena due to damage. J Mech Phys Solids 40(1):1–16