G. Lütjering, J. C. Williams, and . Titanium, , vol.2, 2003.

S. L. Semiatin and D. U. Furrer, Modeling of microstructure evolution during the thermomechanical processing of titanium alloys, 2008.

S. Mironov, M. Murzinova, S. Zherebtsov, G. A. Salishchev, and S. L. Semiatin, Microstructure evolution during warm working of Ti-6Al-4V with a colony-? microstructure, Acta Materialia, vol.57, issue.8, pp.2470-2481, 2009.

S. Zherebtsov, M. Murzinova, G. Salishchev, and S. L. Semiatin, Spheroidization of the lamellar microstructure in Ti-6Al-4V alloy during warm deformation and annealing, Acta Materialia, vol.59, pp.4138-4150, 2011.

N. Stefansson and S. L. Semiatin, Mechanisms of globularization of Ti-6Al-4V during static heat treatment, Metallurgical and Materials Transactions A, vol.34, issue.3, pp.691-698, 2003.

N. Stefansson, S. L. Semiatin, and D. Eylon, The kinetics of static globularization of Ti-6Al-4V, Metallurgical and Materials Transactions A, vol.33, issue.11, pp.3527-3534, 2002.

I. Weiss, F. H. Froes, D. Eylon, and G. E. Welsch, Modification of alpha morphology in Ti-6Al-4V by thermomechanical processing, Metallurgical and Materials Transactions A, vol.17, issue.11, pp.1935-1947, 1986.

H. Margolin and P. Cohen, Evolution of the equiaxed morphology of phases in Ti-6Al-4V, Titanium', vol.80, pp.1555-1561, 1980.

H. Margolin and P. Cohen, Kinetics of recrystallization of alpha in Ti-6Al-4V. Titanium'80, vol.4, pp.2991-2997, 1980.

G. A. Salishchev, S. V. Zerebtsov, S. Mironov, and S. L. Semiatin, Formation of grain boundary misorientation spectrum in alpha-beta titanium alloys with lamellar structure under warm and hot working, Materials Science Forum, vol.467, pp.501-506, 2004.

W. W. Mullins, The effect of thermal grooving on grain boundary motion, Acta Metallurgica, vol.6, issue.6, pp.414-427, 1958.

C. Herring, Effect of change of scale on sintering phenomena, Journal of Applied Physics, vol.21, issue.4, pp.301-303, 1950.

C. Herring, Surface tension as a motivation for sintering. The physics of powder metallurgy, vol.27, pp.143-179, 1951.

B. H. Prada, J. Mukhopadhyay, and A. K. Mukherjee, Effect of strain and temperature in a superplastic Ni-modified Ti-6Al-4V alloy, Materials Transactions, vol.31, issue.3, pp.200-206, 1990.

J. Koike, Y. Shimoyama, I. Ohnuma, T. Okamura, R. Kainuma et al., Stress-induced phase transformation during superplastic deformation in two-phase Ti-Al-Fe alloy, Acta Materialia, vol.48, issue.9, pp.2059-2069, 2000.

J. J. Jonas, C. Aranas, A. Fall, and M. Jahazi, Transformation softening in three titanium alloys, Materials and Design, vol.113, pp.305-310, 2017.

H. S. Yang, G. Gurewitz, and A. K. Mukherjee, Mechanical behavior and microstructural evolution during superplastic deformation of Ti6Al-4V, Materials Transactions, vol.32, issue.5, pp.465-472, 1991.

H. Matsumoto, K. Yoshida, S. Lee, Y. Ono, and A. Chiba, Ti6Al-4V alloy with an ultrafine-grained microstructure exhibiting low temperature high strain-rate superplasticity, Materials Letters, vol.98, pp.209-212, 2013.

V. Derkach, Surface evolution and grain boundary migration in a system of 5 grains, 2010.

J. Bruchon, D. Pino-muñoz, F. Valdivieso, and S. Drapier, Finite element simulation of mass transport during sintering of a granular packing. part i. surface and lattice diffusions, Journal of the American Ceramic Society, vol.95, issue.8, pp.2398-2405
URL : https://hal.archives-ouvertes.fr/emse-00828886

S. L. Semiatin and D. U. Furrer, Modeling of microstructure evolution during the thermomechanical processing of titanium alloys, vol.22, pp.522-535, 2009.

S. L. Semiatin, S. L. Knisley, P. N. Fagin, D. R. Barker, and F. Zhang, Microstructure evolution during alpha-beta heat treatment of Ti-6Al-4V, Metallurgical and Materials Transactions A, vol.34, issue.10, pp.2377-2386, 2003.

S. Osher and J. A. Sethian, Fronts propagating with curvaturedependent speed: Algorithms based on hamilton-jacobi formulations, Journal of Computational Physics, vol.79, issue.1, pp.12-49, 1988.

J. A. Sethian, A fast marching level set method for monotonically advancing fronts, Proceedings of the National Academy of Sciences, vol.93, issue.4, pp.1591-1595, 1996.

P. Smereka, Semi-implicit level set methods for curvature and surface diffusion motion, Journal of Scientific Computing, vol.19, issue.1, pp.439-456, 2003.

J. Bruchon, D. Pino-muñoz, F. Valdivieso, S. Drapier, and G. Pacquaut, 3D simulation of the matter transport by surface diffusion within a level-set context, European Journal of Computational Mechanics/Revue Européenne de Mécanique Numérique, vol.19, issue.1-3, pp.281-292, 2010.
URL : https://hal.archives-ouvertes.fr/emse-00562323

J. Bruchon, S. Drapier, and F. Valdivieso, 3D finite element simulation of the matter flow by surface diffusion using a level set method, International Journal for Numerical Methods in Engineering, vol.86, issue.7, pp.845-861, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00828629

H. Digonnet and T. Coupez, Object-oriented programming for "fast and easy" development of parallel applications in forming processes simulation, Computational Fluid and Solid Mechanics, pp.1922-1924, 2003.
URL : https://hal.archives-ouvertes.fr/hal-00531577

M. Bernacki, Y. Chastel, T. Coupez, and R. E. Logé, Level set framework for the numerical modelling of primary recrystallization in polycrystalline materials, Scripta Materialia, vol.58, issue.12, pp.1129-1132, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00509731

L. Ville, L. Silva, and T. Coupez, Convected level set method for the numerical simulation of fluid buckling, International Journal for Numerical Methods in Fluids, vol.66, issue.3, pp.324-344, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00595325

M. Bernacki, H. Resk, T. Coupez, and R. E. Logé, Finite element model of primary recrystallization in polycrystalline aggregates using a level set framework. Modelling and Simulation in, Materials Science and Engineering, vol.17, issue.6, p.64006, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00508362

M. Shakoor, B. Scholtes, P. Bouchard, and M. Bernacki, An efficient and parallel level set reinitialization method -application to micromechanics and microstructural evolutions, Applied Mathematical Modelling, vol.39, issue.23, pp.7291-7302, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01139858

B. Scholtes, M. Shakoor, A. Settefrati, P. Bouchard, N. Bozzolo et al., New finite element developments for the full field modeling of microstructural evolutions using the level-set method, Computational Materials Science, vol.109, pp.388-398, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01479197

M. Bernacki, R. E. Logé, and T. Coupez, Level set framework for the finite-element modelling of recrystallization and grain growth in polycrystalline materials, Scripta Materialia, vol.64, issue.6, pp.525-528, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00577039

M. Bernacki, H. Resk, T. Coupez, and R. E. Logé, Finite element model of primary recrystallization in polycrystalline aggregates using a level set framework. Modelling and Simulation in, Materials Science and Engineering, vol.17, issue.6, p.64006, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00508362

C. Gruau and T. Coupez, 3D tetrahedral, unstructured and anisotropic mesh generation with adaptation to natural and multidomain metric, Computer Methods in Applied Mechanics and Engineering, vol.194, issue.48, pp.4951-4976, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00517639

J. Bruchon, H. Digonnet, and T. Coupez, Using a signed distance function for the simulation of metal forming processes: Formulation of the contact condition and mesh adaptation. from a lagrangian approach to an eulerian approach, International journal for numerical methods in engineering, vol.78, issue.8, pp.980-1008, 2009.
URL : https://hal.archives-ouvertes.fr/emse-00475556

R. C. Almeida, R. A. Feijóo, A. C. Galeao, C. Padra, and R. S. Silva, Adaptive finite element computational fluid dynamics using an anisotropic error estimator, Computer Methods in Applied Mechanics and Engineering, vol.182, issue.3-4, pp.379-400, 2000.

R. Boussetta, T. Coupez, and L. Fourment, Adaptive remeshing based on a posteriori error estimation for forging simulation. Computer methods in applied mechanics and engineering, vol.195, pp.6626-6645, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00512775

Y. Mesri, W. Zerguine, H. Digonnet, L. Silva, and T. Coupez, Dynamic parallel adaption for three dimensional unstructured meshes: Application to interface tracking, Proceedings of the 17th International Meshing Roundtable, pp.195-212, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00909625

M. Shakoor, P. Bouchard, and M. Bernacki, An adaptive level-set method with enhanced volume conservation for simulations in multiphase domains, International Journal for Numerical Methods in Engineering, vol.109, issue.4, pp.555-576, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01504468

M. Shakoor, M. Bernacki, and P. Bouchard, A new body-fitted immersed volume method for the modeling of ductile fracture at the microscale: Analysis of void clusters and stress state effects on coalescence, Engineering Fracture Mechanics, vol.147, pp.398-417, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01181257

S. Osher and J. A. Sethian, Motion by intrinsic laplacian of curvature, Interfaces and Free Boundaries, vol.1, issue.1, pp.107-123, 1999.

H. Garcke, B. Nestler, and B. Stoth, A multiphase field concept: numerical simulations of moving phase boundaries and multiple junctions, SIAM Journal on Applied Mathematics, vol.60, issue.1, pp.295-315, 1999.

Y. Jin, N. Bozzolo, A. D. Rollett, and M. Bernacki, 2D finite element modeling of misorientation dependent anisotropic grain growth in polycrystalline materials: Level set versus multi-phase-field method, Computational Materials Science, vol.104, pp.108-123, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01148034

S. Florez, T. Toulorge, and M. Bernacki, Body-fitted remeshing of moving interfaces, 2018.

J. Humphreys, G. S. Rohrer, and A. Rollett, Recrystallization and related annealing phenomena, 2017.

S. L. Semiatin, B. C. Kirby, and G. A. Salishchev, Coarsening behavior of an alpha-beta titanium alloy, Metallurgical and Materials Transactions A, vol.35, issue.9, pp.2809-2819, 2004.

S. L. Semiatin, T. M. Brown, T. A. Goff, P. N. Fagin, R. E. Turner et al., Diffusion coefficients for modeling the heat treatment of Ti-6Al-4V, Metallurgical and Materials Transactions A, vol.35, issue.9, pp.3015-3018, 2004.

G. L. Bailey and H. C. Watkins, Surface tensions in the system solid copper-molten lead, Proceedings of the Physical Society. Section B, vol.63, issue.5, p.350, 1950.

C. S. Smith, Grains, phases, and interphases: an interpretation of microstructure, Trans. Metall. Soc. AIME, vol.175, pp.15-51, 1948.

W. T. Read and W. Shockley, Dislocation models of crystal grain boundaries, Phys. Rev, vol.78, pp.275-289, 1950.

W. W. Mullins, Two-dimensional motion of idealized grain boundaries, Journal of Applied Physics, vol.27, issue.8, pp.900-904, 1956.