, Biodégradabilité des alliages métalliques utilisés en art dentaire-­-Normalisation d'essais électrochimiques AFNOR NF S91-­-141, vol.20, 1997.

A. G. Arun and T. Izgu-b, Nickel and chromium levels in the saliva and serum of patients with fixed orthodontic appliances, Angle Orthod, vol.71, pp.375-384, 2001.

. L. Baker-k, L. G. Nieberg, and A. D. Weimer, Frictional changes in force values caused by saliva substitution, Am. J. Orthod. Dentofacial Orthop, vol.91, pp.316-320, 1987.

B. Z. Bellamine, M. Zertoubi, M. Irhzo, and A. El-boussiri-k, Relationships between electrochemical corrosion and the tribologic properties of orthodontic alloys, International Orthod, vol.8, pp.360-371, 2010.

B. Cj and G. Aj, Beta titanium: a new orthodontic alloy

, Am J Orthod, vol.77, issue.2, pp.121-153, 1980.

D. , In vitro cytotoxicity of orthodontic archwires in cortical cell cultures

, Circadian rhythms in human salivary flow rate and composition, vol.26, pp.421-427, 2004.

, J. Physiol, vol.220, pp.529-545, 1972.

, Etudes des salives artificielles utilisées pour les tests de corrosion des alliages orthodontiques

E. T. and A. A. ,

, In vivo aging of orthodontic alloys: Implications for corrosion potential, nickel release, and biocompatibility

F. V. Munoz-montagud-j and . Sanchiz-v, Angle Orthod, vol.72, pp.222-237, 2002.

, Unstimulated salivary flow rate, pH and buffer capacity of saliva in healthy volunteers, 11. FILLEUL M.P. Les fils orthodontiques. Propriétés mécaniques. Chapitre 13. In : CHATEAU M. Orthopédie Dento-­-Faciale, vol.96, pp.299-310, 1992.

G. J. Fovet, Y. , and A. , About a synthetic saliva for in vitro studies, Talanta, vol.53, pp.1103-1115, 2001.

, Comparaison de dix groups de fils orthodontiques préformés à base de titane-­-molybdène

C. Mémoire and N. , , 2006.

G. M. Gjerdet and N. R. Hensten-­-pettersen-a, Composition and in vitro corrosion of orthodontic appliances, 15. HUANG H.H. Surface characterizations and corrosion resistance of nickel-­-titanium orthodontic archwires in artificial saliva of various degrees of acidity, vol.101, pp.525-532, 1992.

, J. Biomed. Mater. Res. A, vol.74, pp.629-639, 2005.

H. H. Huang, Y. H. Chiu, and . H. Lee-t, Ion release from NiTi orthodontic wires in artificial saliva with various acidities, Biomaterials, vol.24, pp.3585-3592, 2003.

H. N. Cunningham-s and C. G. Golden, An investigation into the effects of polishing on surface hardness and corrosion of orthodontic archwires

, Angle Orthod, vol.69, pp.433-440, 1999.

J. P. Nihill, P. Sobkowski, J. , and A. M. , Commercial soft drinks: pH and in vitro dissolution of enamel

K. Ct and H. Th, Gen. Dent, vol.55, issue.2, pp.150-154, 2007.

, Vriations in surface characteristics and corrosion behavior of metal brackets and wires in different electrolyte solutions, Eur. J. Orthod, vol.67, issue.5, pp.197-207, 1997.

K. Rp and G. Ar, Effects of composition and cross section on the elastic properties of orthodontic wires, Comparison of nickel-­-titanium and beta titanium wire sizes to conventional orthodontic arch wire materials, vol.79, pp.325-366, 1981.

L. M. Lin-s and . H. Lee-t,

. 24, . Y. Park-h, . R. Shearer-t, and . Pellerin-c, In vitro release of nickel and chromium from simulated orthodontic appliances, Am. J. Orthod. Dentofac. Orthop, vol.76, pp.156-159, 1983.

Q. P. , ROCHAIX C. Electrochimie : thermodynamique, cinétique, vol.8, pp.31-46, 1993.

S. , G. B. , L. M. , and D. , Influence of fluoridated mouthwashes on corrosion resistance of orthodontics wires, Biomaterials, vol.25, issue.19, pp.4535-4577, 2004.

, Etude en torsion d'arcs orthodontiques à base de titane-­-molybdène Th, Chir. Dent, 2007.

W. Drescher-d and J. R. Bourauel-c, Corrosion and biocompatibility of orthodontic wires

, J Mater Sci Mater Med, vol.10, issue.5, p.79, 1999.