Ductile Fracture of Metals

Year	Entry
2008	Ben Bettaieb M, Lemoine X, Duchene L, Habraken AM. Study of bendability of steel sheets. Steel Res Int. 2008;79(sp. iss. 1):225-232.
2009	Ben Bettaieb M, Lemoine X, Duchêne L, Habraken AM. The role of void evolution on the bendability of steel sheets. In: Oñate E, Owen DRJ, eds. COMPLAS X: X International Conference on Computational Plasticity: Fundamentals and Applications. September 2-4, 2009; Barcelona, Spain.
2004	Duan X, Metzger D, Jian M. Influence of yield criteria on the prediction of shear localization considering the inhomogeneous distribution of microstructure. In: Computer Technology and Applications. ASME/JSME 2004 Pressure Vessels and Piping Conference (PVP2004); July 25-29, 2004; San Diego, CA.59-65.
2013	Miloud MH, Imad A, Benseddiq N, Bouiadjra BB, Bounif A, Serier B. A numerical analysis of relationship between ductility and nucleation and critical void volume fraction parameters of Gurson–Tvergaard–Needleman model. Proc Inst Mech Eng Part C-J Eng Mech Eng Sci. November 2013;227(11):2634-2646.
2013	Chen Z, Butcher C. Micromechanics Modelling of Ductile Fracture. Dordrecht, Netherlands: Springer; 2013. Solid Mechanics and Its Applications; vol 195.
2001	Babout L, Maire E, Buffière JY, Fougères R. Characterization by X-ray computed tomography of decohesion, porosity growth and coalescence in model metal matrix composites. Acta Mater. June 22, 2001;49(11):2055-2063.
1993	Thomason PF. Ductile fracture by the growth and coalescence of microvoids of non-uniform size and spacing. Acta Metall Mater. July 1993;41(7):2127-2134.
2008	Vadillo G, Zaera R, Fernández-Sáez J. Consistent integration of the constitutive equations of Gurson materials under adiabatic conditions. Comput Meth Appl Mech Eng. February 15, 2008;197(13-16):1280-1295.
2000	Zhang ZL, Thaulow C, Ødegård J. A complete Gurson model approach for ductile fracture. Eng Fract Mech. September 1, 2000;67(2):155-168.
1996	Zhang ZL. A sensitivity analysis of material parameters for the Gurson constitutive model. Fatigue Fract Eng Mater Struct. 1996;19(5):561-570.
2006	Butcher C, Chen Z, Worswick M. A lower bound damage-based finite element simulation of stretch flange forming of Al–Mg alloys. Int J Fract. December 2006;142(3-4):289-298.
2011	Ben Bettaieb M, Lemoine X, Bouaziz O, Habraken AM, Duchêne L. A finite element analysis of the bending and the bendability of metallic sheets. Int J Mater Form. 2011;4(3):283-297.
2018	Duflou JR, Habraken A-M, Cao J, Malhotra R, Bambach M, Adams D, Vanhove H, Mohammadi A, Jeswiet J. Single point incremental forming: state-of-the-art and prospects. Int J Mater Form. November 2018;11(6):743-773.
2005	Bilger N, Auslender F, Bornert M, Michel J-C, Moulinec H, Suquet P, Zaoui A. Effect of a nonuniform distribution of voids on the plastic response of voided materials: a computational and statistical analysis. Int J Solids Struct. January 2005;42(2):517-538.
2018	Guzmán CF, Yuan S, Duchêne L, Flores EIS, Habraken AM. Damage prediction in single point incremental forming using an extended Gurson model. Int J Solids Struct. October 15, 2018;151:45-56.
2000	Pardoen T, Hutchinson JW. An extended model for void growth and coalescence. J Mech Phys Solids. December 2000;48(12):2467-2512.
2001	Sarkar J, Kutty TRG, Conlon KT, Wilkinson DS, Embury JD, Lloyd DJ. Tensile and bending properties of AA5754 aluminum alloys. Mater Sci Eng. November 15, 2001;A316:52-59.
2002	Guiglionda G, Poole WJ. The role of damage on the deformation and fracture of Al–Si eutectic alloys. Mater Sci Eng. 2002;A336(1-2):159-169.
2010	Ben Bettaieb M, Lemoine X, Duchêne L, Habraken AM. Simulation of the bending process of hardening metallic sheets using damage model, I: theoretical development and numerical implementation. Mater Sci Eng. 2010;A528(1):434-441.
2009	Butcher CJ, Chen ZT. Damage percolation modeling of void nucleation within heterogeneous particle distributions. Model Simul Mater Sci Eng. 2009;17(7):075003.
2011	Butcher C, Chen ZT. Characterizing void nucleation in a damage-based constitutive model using notched tensile sheet specimens. Theor Appl Fract Mech. April 2011;55(2):140-147.
1997	Pilkey AK. Effect of Second-Phase Particle Clustering on Aluminum-Silicon Alloy Sheet Formability [PhD thesis]. Carleton University; July 15, 1997.
2001	Lievers WB. Effect of Void Damage and Shear Band Development on the Bendability of AA6111 Automotive Aluminum Alloy Sheet [Master's thesis]. Carleton University; May 9, 2001.
2007	Weck AG. The Role of Coalescence on Ductile Fracture [PhD thesis]. Hamilton, ON: McMaster University; March 2007.
2004	Bayley CJ. Incorporating External and Internal Weld-Line Defects Into Ductility Predictions for AA5182 and AA5754 Tailor-Welded Blanks [PhD thesis]. Queen's University; April 2004.
2011	Sloan ADC. The Role of Non-Ferritic Phase in the Micro-Void Damage Accumulation and Failure of Dual-Phase Steels [Master's thesis]. Queen's University; September 2011.
2018	Scott H. Effects of Microstructure and Particle Population on Void Damage Evolution in Complex Phase Steel [PhD thesis]. Queen's University; September 2018.
2017	Cui Y. Molecular Dynamics Insights Into Nanovoid Behavior in Metals: From Sparsely-Arranged Nanovoids to Densely-Arranged Nanopores [PhD thesis]. Edmonton, AB: University of Alberta; 2017.
2006	Mazinani M. Deformation and Fracture Behaviour of a Low Carbon Dual-Phase Steel [PhD thesis]. Vancouver, BC: University of British Columbia; December 2006.
2023	Kordmir S. Anisotropy of Strength and Fracture Behavior in Al-Mg-Si-(Mn) Extrusion Alloys [Master's thesis]. Vancouver, BC: University of British Columbia; March 2023.
2013	Fansi J. Prediction of DP Steel Fracture by FEM Simulations Using an Advanced Gurson Model [PhD thesis]. Liège, Belgique: Université de Liège; 2013.
2011	Butcher C. A Multi-Scale Damage Percolation Model of Ductile Fracture [PhD thesis]. Fredricton, NB: The University of New Brunswick; August 2011.
2004	Chen Z. The Role of Heterogeneous Particle Distribution in the Prediction of Ductile Fracture [PhD thesis]. University of Waterloo; 2004.
2006	Orlov OS. A Three-Dimensional Damage Percolation Model [PhD thesis]. University of Waterloo; 2006.
2018	Cyr ED. A New Crystal Plasticity Formulation to Simulate Large-Strain Plasticity of Polycrystalline Metals At Elevated Temperatures [PhD thesis]. University of Waterloo; 2018.