C. Leyens and M. Peters, Titanium and Titanium Alloys: Fundamentals and Applications, 2006.

A. Devaraj, S. Nag, R. Srinivasan, R. E. Williams, S. Banerjee et al., Experimental evidence of concurrent compositional and structural instabilities leading to u precipitation in titaniummolybdenum alloys

. Mater, , vol.60, 2012.

F. Prima, P. Vermaut, G. Texier, D. Ansel, and T. Gloriant, Evidence of a-nanophase heterogeneous nucleation from u particles in a b-metastable Ti-based alloy by high-resolution electron microscopy, Scr. Mater, vol.54, pp.645-648, 2006.

S. Nag, R. Banerjee, R. Srinivasan, J. Y. Hwang, M. Harper et al., the Ti5Al5Mo5V3Cr0.5Fe titanium alloy, vol.57, pp.2136-2147, 2009.

B. He, X. Cheng, J. Li, G. Li, and H. Wang, u-assisted a phase and hardness of Ti-5Al-5Mo-5V-1Cr-1Fe during low temperature isothermal heat treatment after laser surface remelting, J. Alloys Compd, vol.708, pp.1054-1062, 2017.

J. Smilauerov-a, M. Jane-cek, P. Harcuba, J. Str-aský, J. Veselý et al., Ageing response of sub-transus heat treated Ti6.8Mo4.5Fe1.5Al alloy, J. Alloys Compd, vol.724, pp.373-380, 2017.

A. Settefrati, E. Aeby-gautier, M. Dehmas, G. Geandier, B. Appolaire et al., Precipitation in a near beta titanium alloy on ageing: influence of heating rate and chemical composition of the beta-metastable phase, Solid State Phenom, vol.172, 2011.

E. Aeby-gautier, A. Settefrati, F. Bruneseaux, B. Appolaire, B. Denand et al., Isothermal a 00 formation in b metastable titanium alloys, J. Alloys Compd, vol.577, issue.S439eS443, 2013.

F. Prima, J. Debuigne, M. Boliveau, and D. Ansel, Control of omega phase volume fraction precipitated in a beta titanium alloy: development of an experimental method, J. Mater. Sci. Lett, vol.19, pp.2219-2221, 2000.

P. , P. Harcuba, J. Smilauerov-a, J. Strský, M. Jane-cek et al., Phase Transformations in Ti-15Mo investigated by in situ electrical resistance, Acta Phys. Pol. A, vol.128, pp.779-782, 2015.

J. Debuigne and F. Prima, Growth kinetic model for isothermal omega phase particles in low-cost beta titanium Ti6.8Mo4.5Fe1.5Al alloy, Mater. Trans, vol.46, pp.1433-1435, 2005.

F. Prima, P. Vermaut, D. Ansel, and J. Debuigne, u precipitation in a beta metastable titanium alloy, resistometric study, Mater. Trans, vol.41, pp.1092-1097, 2000.

F. Sun, F. Prima, and T. Gloriant, High-strength nanostructured Ti12Mo alloy from ductile metastable beta state precursor, Mater. Sci. Eng. A, vol.527, pp.4262-4269, 2010.

R. Sanguinetti, M. Zandona, A. Pianelli, and E. Aeby-gautier, Decomposition of bmetastable phase in b-Cez alloy during continuous heating, J. Phys. IV, vol.3, pp.527-531, 1993.

T. Gloriant, G. Texier, F. Sun, I. Thibon, F. Prima et al., Characterization of nanophase precipitation in a metastable b titanium-based alloy by electrical resistivity, dilatometry and neutron diffraction, Scr. Mater, vol.58, pp.271-274, 2008.

J. Coakley, V. A. Vorontsov, K. C. Littrell, R. K. Heenan, M. Ohnuma et al., Nanoprecipitation in a beta-titanium alloy, J. Alloys Compd, vol.623, pp.146-156, 2015.

E. Aeby-gautier, F. Bruneseaux, J. Da-costa-teixeira, B. Appolaire, G. Geandier et al., Microstructural formation in Ti Alloys: in-situ characterization of phase transformation kinetics, Jom J. Min. Met. Mat. S, vol.59, 2007.

P. Barriobero-vila, G. Requena, S. Schwarz, F. Warchomicka, and T. Buslaps,

, Evolution of relative resistivity and shear modulus G of samples '800 C/30 min' during heating with heating rate 1.9 C/min. quenched Ti5Al5Mo5V3Cr1Zr alloy, Acta Mater, vol.95, pp.90-101, 2015.

F. Bruneseaux, Apport de la diffraction des rayons X haute nergie sur les transformations de phases, application aux alliages de titane, 2008.

F. Bruneseaux, E. Aeby-gautier, G. Geandier, J. Da-costa-teixeira, B. Appolaire et al., In situ characterizations of phase transformations kinetics in the Ti17 titanium alloy by electrical resistivity and high temperature synchrotron X-ray diffraction, Mater. Sci. Eng. A, vol.476, pp.60-68, 2008.

A. Settefrati, Etude exprimentale et modlisation par champ de phase de la formation de a dans les alliages de titane-mtastable, 2012.

F. Chen, G. Xu, X. Zhang, and K. Zhou, Exploring the phase transformation in bquenched Ti-55531 alloy during continuous heating via dilatometric measurement, microstructure characterization, and diffusion analysis, Metall. Mater. Trans. A, vol.47, 2016.

Q. Contrepois, M. Carton, and J. Lecomte-beckers, Characterization of the b phase decomposition in Ti-5Al-5Mo-5V-3Cr at slow heating rates, Open J. Met, vol.1, 2011.

A. Migliori, J. L. Sarrao, W. M. Visscher, T. M. Bell, M. Lei et al., Resonant ultrasound spectroscopic techniques for measurement of the elastic moduli of solids, Phys. B Condens. Matter, vol.183, issue.93, p.90048, 1993.

A. Migliori and T. W. Darling, Resonant ultrasound spectroscopy for materials studies and non-destructive testing, Ultrasonics, vol.34, pp.473-476, 1996.

J. Nejezchlebov-a, M. , H. Seiner, P. , M. Landa et al.,

J. Str-aský, P. Harcuba, and M. J. Cek, The effect of athermal and isothermal u phase particles on elasticity of b-Ti single crystals, Acta Mater, vol.110, pp.185-191, 2016.

K. , J. Str-aský, V. Polyakova, J. , J. Nejezchlebov-a et al., Microhardness and microstructure evolution of ultra-fine grained Ti-15Mo and TIMETAL LCB alloys prepared by high pressure torsion, Mater. Sci. Eng. A, vol.682, pp.220-228, 2017.

P. , H. Seiner, J. Zdek, M. Janovsk-a, and M. Landa, Determination of all 21 independent elastic coefficients of generally anisotropic solids by resonant ultrasound spectroscopy: benchmark examples, Exp. Mech, vol.54, pp.1073-1085, 2014.

H. Seiner, L. , P. Sedl-ak, M. Jane-cek, O. Srba et al., Application of ultrasonic methods to determine elastic anisotropy of polycrystalline copper processed by equal-channel angular pressing, Acta Mater, vol.58, pp.235-247, 2010.

R. G. Leisure and F. A. Willis, Resonant ultrasound spectroscopy, J. Phys. Condens. Matter, vol.9, pp.6001-6029, 1997.

M. Ikeda, Negative temperature dependence of electrical resistivity in Ti-Mo binary alloys, Proceedings of the Sixth World Conference on Titanium, vol.I, pp.313-318, 1988.

T. Fukuda, T. Kakeshita, T. Saburi, K. Kindo, T. Takeuchi et al., Negative temperature dependence of electrical resistivity in TiNi alloys, Phys. B Condens. Matter, vol.237238, pp.279-281, 1997.