Agwai A, Guven I, Madenci E (2010) Comparison of XFEM, CZM and PD for predicting crack initiation and propagation. In: Collection of technical papers—AIAA/ASME/ASCE/AHS/ASC structures, structural dynamics and materials conference
Areias PMA, Belytschko T (2005) Analysis of three-dimensional crack initiation and propagation using the extended finite element method. Int J Numer Methods Eng 63(8):760–788
Argyris JH, Kelsey S (1954) Energy theorems and structural analysis. Aircraft Eng 26(12):410–422
[+]
Agwai A, Guven I, Madenci E (2010) Comparison of XFEM, CZM and PD for predicting crack initiation and propagation. In: Collection of technical papers—AIAA/ASME/ASCE/AHS/ASC structures, structural dynamics and materials conference
Areias PMA, Belytschko T (2005) Analysis of three-dimensional crack initiation and propagation using the extended finite element method. Int J Numer Methods Eng 63(8):760–788
Argyris JH, Kelsey S (1954) Energy theorems and structural analysis. Aircraft Eng 26(12):410–422
Banks-Sills L (1991) Application of the finite element method to linear elastic fracture mechanics. Appl Mech Rev 44(10):447–461
Banks-Sills L, Sherman D (1986) Comparison of methods for calculating stress intensity factors with quarter point elements. Int J Fract 32:127–140
Banks-Sills L, Sherman D (1992) On the computation of stress intensity factors for three-dimensional geometries by means of the stiffness derivative and J-integral methods. Int J Fract 53:1–20
Belytschko T, Black T (1999) Elastic crack growth in finite elements with minimal remeshing. Int J Numer Methods Eng 45(5):601–620
Bittencourt TN, Barry A, Ingraffea AR (1992) Comparison of mixed-mode stress intensity factors obtained through displacement correlation, J-integral formulation and modified crack-closure integral. In: Fracture mechanics: 22nd Symposium. Atluri SN, Newman,JC Jr, Raju IS, Epstein JS, editors, number II, ASTM STP, Philadelphia, pp 69-82
Bittencourt TN, Wawrzynek PA, Ingraffea AR, Sousa JL (1996) Quasi-automatic simulation of crack propagation for 2D LEFM problems. Eng Fract Mech 55(2):321–334
Bobet A, Einstein HH (1998) Numerical modeling of fracture coalescence in a model rock material. Int J Fract 92:221–252
Bourdin B, Francfort GA, Marigo JJ (2000) Numerical experiments in revisited brittle fracture. J Mech Phys Solids 48:797–826
Clough RW (1960) The finite element method in plane stress analysis, Conference on matrix methods in structural mechanics, ASCE, Pittsburgh, PA: 345-378
Clough RW (1962) The stress distribution of Norfork Dam, structures and materials research. Department of civil engineering, University of California: Series 100, Issue 19, Berkeley
Duflot M (2007) A study of the representation of cracks with level sets. Int J Numer Methods Eng 70(11):1261–1302
Francfort GA, Marigo JJ (1998) Revisiting brittle fracture as an energy minimization problem. J Mech Phys Solids 46(8):1319–1342
Gallagher RH (1978) A review of finite element techniques in fracture mechanics. In: Proceedings of the first international conference on numerical methods in fracture mechanics (Luxmoore AR, Owen DRJ, Hrsg S) Swansea: Pineridge Press, pp 1–25
Gdoutos EE (1993) Fracture mechanics: an introduction. Solid mechanics and its applications. Kluwer Academic Publishers, Dordrecht, Holland
Giner E, Fuenmayor FJ, Baeza L, Tarancón JE (2005) Error estimation for the finite element evaluation of G$$_{{\rm I}}$$ and G$$_{{\rm II}}$$ in mixed-mode linear elastic fracture mechanics. Finite Elem Anal Des 41:1079–1104
Giner E, Sukumar N, Tarancón JE, Fuenmayor FJ (2009) An Abaqus implementation of the extended finite element method. Eng Fract Mech 76(3):347–368
Hansbo A, Hansbo P (2004) A finite element method for the simulation of strong and weak discontinuities in solid mechanics. Comput Methods Appl Mech Eng 19(33):3523–3540
Henshell RD, Shaw KG (1975) Crack tip elements are unnecessary. Int J Numer Methods Eng 9:495–507
Hibbitt, Karlsson, Sorensen (2004) Inc. ABAQUS/standard user’s manual, Pawtucket, Rhode Island
Ingraffea AR (2004) Computational fracture mechanics. In: Encyclopedia of computational mechanics, 1$$^{{\rm st}}$$ edn. Wiley, pp 375-405
Jäger P, Steinmann P, Kuhl E (2008) Modelling three-dimensional crack propagation—a comparison of crack path tracking strategies. Int J Numer Methods Eng 76(9):1328–1352
Jirásek M (2011) Damage and smeared crack models. In: Hofstetter G, Meschke G (eds) Numerical modelling of concrete cracking. Springer, Berlin, pp 1–49
Kanninen MF, Popelar CH (1985) Advanced fracture mechanics. Oxford University Press, Oxford (UK)
Kuna M (2013) Finite elements in fracture mechanics. Theory—numerics—applications. Springer, Berlin
Marco M, Belda R, Miguélez MH, Giner E (2018a) A heterogeneous orientation criterion for crack modelling in cortical bone using a phantom-node approach. Finite Elem Anal Des 146:107–117
Marco M, Giner E, Larraínzar-Garijo R, Caeiro JR, Miguélez MH (2018b) Modelling of femur fracture using finite element procedures. Eng Fract Mech 196:157–167
Moës N, Gravouil A (2002) Non-planar 3D crack growth by the extended finite element method and level sets—part I: mechanical model. Int J Numer Methods Eng 53(11):2549–2568
Moës N, Dolbow J, Belytschko T (1999) A finite element method for crack growth without remeshing. Int J Numer Methods Eng 46:131–150
Oliver J, Huespe AE, Samaniego E, Chaves EWV (2002) On strategies for tracking strong discontinuities in computational failure mechanics. In: Fifth world congress on computational mechanics. Mang HA, Rammerstorfer FC, Eberhardsteiner J. Vienna, Austria, pp 7-12
Ooi ET, Man H, Natarajan S, Song C (2015) Adaptation of quadtree meshes in the scaled boundary finite element method for crack propagation modelling. Eng Fract Mech 144:101–117
Owen DRJ, Fawkes AJ (1983) Engineering fracture mechanics: numerical methods and applications. Pineridge Press Ltd., Swansea
Qian G, Wang M (1996) Symmetric branching of mode II and mixed-mode fatigue crack growth in a stainless steel. J Eng Mater Technol 118:356–361
Qian G, González-Albuixech VF, Niffenegger M, Giner E (2016) Comparison of KI calculation methods. Eng Fract Mech 156:52–67
Rashid YR (1968) Analysis of prestressed concrete reactor vessels. Nucl Eng Des 7:334–334
Rice JR, Tracey DM (1973) Computational fracture mechanics. In: Numerical and computer methods in structural mechanics. Fenves SJ, Perrone N, Robinson AR, Schnobrich WC, Academic Press, New York, pp 585-623
Saouma VE, Ingraffea AR (1981) Fracture mechanics analysis of discrete cracking. In: Proceedings, IABSE colloquium on advanced mechanics of reinforced concrete, Delft 393
Song JH, Wang H, Belytschko T (2008) A comparative study on finite element methods for dynamic fracture. Comput Mech 42:239–250
Staroselsky A, Acharya R, Cassenti B (2019) Phase field modeling of fracture and crack growth. Eng Fract Mech 205:268–284
Stolarska D, Chopp L, Moës N, Belytschko T (2001) Modelling crack growth by level sets in the extended finite element method. Int J Numer Methods Eng 51(8):943–960
Turner MJ, Clough RW, Martin HC, Topp LJ (1956) Stiffness and deflection analysis of complex structures. J Aeronaut Sci 23:805–823
Xu X, Needleman A (1994) Numerical simulation of fast crack growth in brittle solids. J Mech Phys Solids 42(9):1397–1434
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