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Forum Ortodontyczne / Orthodontic Forum
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4/2020
vol. 16
 
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Clinical research

Assessment of the surface roughness and susceptibility to corrosive processes of titanium-niobium and titanium-molybdenum archwires in laboratory tests

Wojciech Boryczko
1
,
Janusz Kamiński
2
,
Michał Czopowicz
3
,
Konrad Małkiewicz
4

  1. Private practice
  2. Division of Veterinary Epidemiology and Economics Warsaw University of Life Sciences-SGGW
  3. Faculty of Materials Science, Warsaw University of Technology
  4. Medical University of Lodz, Department of Orthodontics
Forum Ortod 2020; 16 (4): 290-9
DOI: https://doi.org/10.5114/for.2020.102226
Online publish date: 2020/12/30
Article file
- FO_nr 4_Boryczko.pdf  [2.95 MB]
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1. Pacheco MR, Jansen WC, Oliveira DD. The role of friction in orthodontics. Dent Press J Orthodontics 2012; 17: 170-7.
2. Yu JH, Wu LC, Hsu JT, Chang YY, Huang HH, Huang LH. Surface Roughness and Topography of Four Commonly Used Types of Orthodontic Archwire. J Med Biol Eng 2011; 31: 367-70.
3. Nishio C, Fonseca A, da Motta J, Elias CN, Mucha JN. In vitro evaluation of frictional forces between archwires and ceramic brackets. Am J Orthod Dentofacial Orthop 2004; 125: 56-64.
4. Choi S, Hwang E-Y, Park HK, Park YG. Correlation Between Frictional Force and Surface Roughness of Orthodontic Archwires. J Scan Microscopy 2015; 37: 399-405.
5. Hagen CMH, Hognestad A, Knudsen OO, Sorby K. The effect of surface roughness on corrosion resistance of machined and epoxy coated steel. Progr Org Coat 2019; 130: 17-23.
6. Hilbert LR, Bagge-Ravn D, Kold J, Gram L. Influence of surface roughness of stainless steel on microbial adhesion and corrosion resistance. Int Biodeter Biodegr 2003; 52: 175-85.
7. Trivedi B, Saxena DK, Murthy RC, Chandra SV. Embryotoxicity and fetotoxicity of orally administered hexavalent chromium in mice. Reprod Toxicol 1989; 3: 275-8.
8. Wataha JC, Drury JL, Chung WO. Nickel alloys in the oral environment. Exp Rev Med Dev 2013; 4: 519-39.
9. Kocijan A, Kek-Merl D, Jenko M. The corrosion behaviour of austenic and duplex stainless steels in artificial saliva with the addition of fluoride. Corr Sci 2011; 53: 776-83.
10. Kotha RS, Alla RK, Shammas M, Ravi K. An overview of orthodontic wires. Trends Biomater Artif Organs 2014; 28: 32-6.
11. Hasegawa S. A concept of “en bloc” movement of teeth using GUMMETAL wire. Quintessence 2014.
12. Zhang H, Guo S, Wang D, Zhou T, Wang L, Ma J. Effects of nanostructured, diamondlike, carboncoating and nitrocarbamizing on the frictional properties and biocompatibility of orthodontic stainless steel wires. Angle Orthod 2016; 86: 782-8.
13. Katić V, Otmačić Ćurković H, Semenski D, Baršić G, Marušić K, Špalj S. Influence of surface layer on mechanical and corrosion properties of nickel - titanium orthodontic wires. Angle Orthod 2014; 84: 1041-8.
14. Turnlund JR. Molybdenum metabolism and requirements in humans. Met Ions Biol Syst 2002; 39: 727-39.
15. Walravens PA, Moure-Eraso R, Solomons CC, Chappell WR, Bentley G. Biochemical abnormalities in workers exposed to molybdenum dust. Arch Environ Health 1979; 34: 302-8.
16. Bilčíková J, Fialková V, Kováčiková E, Miškeje M, Tombarkiewicz B, Kňažická Z. Influence of transition metals on animal and human health: A review. Contemp Agricul 2018; 67: 187-95.
17. Suárez C, Vilar T, Sevilla P, Gil J. In vitro corrosion behavior of lingual orthodontic archwires. Int J Corrosion 2011; 132: 1-9.
18. Pakshir M, Bagheri T, Kazemi MR. In vitro evaluation of the electrochemical behaviour of stainless steel and NiTi orthodontic archwires at different temperatures. Eur J Orthod 2013; 35: 407-13.
19. Barcelos AM, Luna AS, de Assis Ferreira N, Braga AVC, do Lago DCB, de Senna LF. Corrosion evaluation of orthodontic wires in artificial saliva solutions by using response surface methodology. Mater Res 2013; 16: 50-64.
20. Briceno J, Romeu A, Espinar E, Llamas JM, Gil FJ. Influence of microstructure on electrochemical corrosion and nickel release in NiTi orthodontic archwires. Mater Sci Eng C 2013; 3: 4989-93.
21. Carrion-Vilches FJ, Bermudez MD, Fructuoso P. Static and kinetic friction force and surface roughness of different archwire - bracket sliding contacts. Dent Mater J 2015; 34: 648-53.
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