A. Cottrell and B. Bilby, Dislocation theory of yielding and strain ageing of iron, Proc. Phys. Soc, vol.62, p.49, 1949.

Y. Brechet and Y. Estrin, Pseudo-Portevin-Le Chatelier effect in ordered alloys, Scr. Mater, vol.35, pp.217-223, 1996.

F. Chmelík, E. Pink, J. Król, J. Balík, J. Pe?i?ka et al., Mechanisms of serrated flow in aluminium alloys with precipitates investigated by acoustic emission, Acta Mater, vol.46, pp.4435-4442, 1998.

P. Penning, Mathematics of the Portevin-le Chatelier effect, Acta Metall. Mater, vol.20, pp.1169-1175, 1972.

H. Dierke, F. Krawehl, S. Graff, S. Forest, J. ?achl et al., Portevin-Le Chatelier effect in Al-Mg alloys: Influence of obstacles -experiments and modelling, Comput. Mat. Sci, vol.39, pp.106-112, 2007.

S. C. Ren, Philosophical Magazine, 2018.

S. Fu, T. Cheng, Q. Zhang, Q. Hu, and P. Cao, Two mechanisms for the normal and inverse behaviors of the critical strain for the Portevin-Le Chatelier effect, Acta Mater, vol.60, pp.6650-6656, 2012.

J. Balík, P. Luká?, and L. Kubin, Inverse critical strains for jerky flow in Al-Mg alloys, Scr. Mater, vol.42, pp.465-471, 2000.

S. Allain, O. Bouaziz, T. Lebedkina, and M. Lebyodkin, Relationship between relaxation mechanisms and strain aging in an austenitic femnc steel, Scr. Mater, vol.64, pp.741-744, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00585371

S. Gupta, A. Beaudoin, and J. Chevy, Strain rate jump induced negative strain rate sensitivity (NSRS) in 295 aluminum alloy 2024: Experiments and constitutive modeling, Mater. Sci. Eng. A, vol.683, pp.143-152, 2017.

A. Leacock, R. Mcmurray, D. Brown, K. Poston, E. Cueto et al., The influence of strain rate variations on the appearance of serrated yielding in 2024-T3 Al-clad aluminium alloy, AIP Conf. Proc, vol.907, pp.390-395, 2007.

T. Böhlke, G. Bondár, Y. Estrin, and M. Lebyodkin, Geometrically non-linear modeling of the Portevin-Le Chatelier effect, Comput. Mat. Sci, vol.44, pp.1076-1088, 2009.

T. Morgeneyer, T. Taillandier-thomas, A. Buljac, L. Helfen, and F. Hild, On strain and damage interactions during tearing: 3D in situ measurements and simulations for a ductile alloy (AA2139-T3)
URL : https://hal.archives-ouvertes.fr/hal-01383922

, Phys. Solids, vol.96, pp.550-571, 2016.

T. Morgeneyer, T. Taillandier-thomas, L. Helfen, T. Baumbach, I. Sinclair et al., In situ 3D observation of early strain localisation during failure of thin Al alloy (2198) sheet, Acta Mater, vol.69, pp.78-91, 2014.

A. Buljac, T. Taillandier-thomas, T. Morgeneyer, L. Helfen, S. Roux et al., Slant strain band development during flat to slant crack transition in AA2198 T8 sheet: in situ 3D measurements, Int. J. Fract, vol.200, pp.49-62, 2016.

A. Buljac, L. Helfen, F. Hild, and T. Morgeneyer, On deformation and damage micromechanisms in strong work hardening 2198 T3 aluminium alloy, Acta Mater, vol.149, pp.29-45, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01980061

S. C. Ren, Philosophical Magazine, 2018.

U. Prisco, A. Squillace, A. Astarita, and C. Velotti, Influence of welding parameters and post-weld aging on tensile properties and fracture location of AA2139-T351 friction-stir-welded joints, Mat. Res, vol.16, pp.1106-1112, 2013.

T. F. Morgeneyer, J. Besson, H. Proudhon, M. Starink, and I. Sinclair, Experimental and numerical analysis of toughness anisotropy in AA2139 Al-alloy sheet, Acta Mater, vol.57, pp.3902-3915, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00413654

X. Xu, Y. Su, Y. Cai, T. Cheng, and Q. Zhang, Effects of various shape functions and subset size in local deformation measurements using dic, Exp. Mech, vol.55, pp.1575-1590, 2015.

R. Picu, G. Vincze, F. Ozturk, J. Gracio, F. Barlat et al., Strain rate sensitivity of 325 the commercial aluminum alloy AA5182-O, Mater. Sci. Eng. A, vol.390, pp.334-343, 2005.

F. Chmelík, A. Ziegenbein, H. Neuhäuser, and P. Luká?, Investigating the Portevin-Le Châtelier effect by the acoustic emission and laser extensometry techniques, Mater. Sci. Eng. A, vol.324, pp.200-207, 2002.

R. Nogueira-de-codes and A. Benallal, Influence of specimen geometry on the Portevin-Le Châtelier effect due to dynamic strain aging for the AA5083-H116 aluminum alloy, J. Mech. Mater. Struct, vol.6, pp.951-968, 2011.

Y. Cai, Q. Zhang, S. Yang, S. Fu, and Y. Wang, Experimental study on three-dimensional deformation field of Portevin-Le Chatelier effect using digital image correlation, Exp. Mech, vol.56, pp.1243-1255, 2016.

Y. Cai, S. Yang, Y. Wang, S. Fu, and Q. Zhang, Characterization of the deformation behaviors associated with the serrated flow of a 5456 Al-based alloy using two orthogonal digital image correlation systems

. Sci and . Eng, A, vol.664, pp.155-164, 2016.

P. Mccormick, Theory of flow localisation due to dynamic strain ageing, Acta Metall. Mater, vol.36, pp.3061-3067, 1988.

C. Ling and P. Mccormick, Strain rate sensitivity and transient behaviour in an Al-Mg-Si alloy, Acta Metall

. Mater, , vol.38, pp.2631-2635, 1990.

S. C. Ren, Philosophical Magazine, 2018.

C. Ling and P. Mccormick, The effect of temperature on strain rate sensitivity in an Al-Mg-Si alloy, Acta Metall. Mater, vol.41, pp.3127-3131, 1993.

Z. Drozd, Z. Trojanová, and S. Kúdela, Deformation behaviour of Mg-Li-Al alloys, J. Alloy Comp, vol.378, pp.192-195, 2004.

Z. Trojanová, Z. Drozd, P. Luká?, and F. Chmelík, Deformation behaviour of Mg-Li alloys at elevated temperatures, Mater. Sci. Eng. A, vol.410, pp.148-151, 2005.

S. H. Van-den, A. Brink, . Van-den, P. G. Beukel, and . Mccormick, Strain rate sensitivity and the Portevin-355

, Phys. Status Solidi A, vol.30, pp.469-477, 1975.

S. Zhang, P. Mccormick, and Y. Estrin, The morphology of Portevin-Le Chatelier bands : finite element simulation for Al-Mg-Si, Acta Materialia, vol.49, pp.1087-1094, 2001.

S. Graff, S. Forest, J. L. Strudel, C. Prioul, P. Pilvin et al., Strain localization phenomena 360 associated with static and dynamic strain ageing in notched specimens: experiments and finite element simulations, Materials Science and Engineering A, pp.181-185, 2004.

S. Graff, S. Forest, J. L. Strudel, C. Prioul, P. Pilvin et al., Finite element simulations of dynamic strain ageing effects at V-notches and crack tips, Scripta Materialia, vol.52, pp.1181-1186, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00014205

M. Mazière, J. Besson, S. Forest, B. Tanguy, H. Chalons et al., Numerical aspects in the finite 365 element simulation of the Portevin-Le Chatelier effect, Comput. Method. Appl. M, vol.199, pp.734-754, 2010.

B. Klusemann, G. Fischer, T. Böhlke, and B. Svendsen, Thermomechanical characterization of Portevin-Le Châtelier bands in AlMg3 (AA5754) and modeling based on a modified Estrin-McCormick approach, Int. J. Plasticity, vol.67, pp.192-216, 2015.

M. Mazière, H. Dierke-;-ren, and S. C. , Investigations on the Portevin-Le Chatelier critical strain in an aluminum alloy, Philosophical Magazine, vol.52, pp.68-72, 2012.

J. O. Andersson, T. Helander, L. Höglund, P. Shi, and B. Sundman, Thermo-calc & dictra, computational 375 tools for materials science, Calphad, vol.26, pp.273-312, 2002.

Y. Mishin and J. W. Cahn, Thermodynamics of cottrell atmospheres tested by atomistic simulations, Acta Mater, vol.117, pp.197-206, 2016.

T. B. Massalski, J. Murray, L. Bennett, and H. Baker, Binary alloy phase diagrams. vol. i and ii, p.2224, 1986.

E. Amar and A. Pineau, Interpretation of ductile fracture toughness temperature dependence of a low strength steel in terms of a local approach, Eng. Fract. Mech, vol.22, pp.1061-1071, 1985.

H. Wang, C. Berdin, M. Mazière, S. Forest, C. Prioul et al., Experimental and numerical study of dynamic strain ageing and its relation to ductile fracture of a C-Mn steel
URL : https://hal.archives-ouvertes.fr/hal-00714783

. Sci and . Eng, A, vol.547, pp.19-31, 2012.