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A D V A N C E D M A T E R I A L S & P R O C E S S E S | O C T O B E R 2 0 2 1 4 5 15. R.F. Viecilli and C.J. Burstone, Ideal Orthodontic Alignment Load Relationships Based on Periodontal Ligament Stress, Orthodontics & Craniofacial Research, 18, p 180-186, 2015. 16. P. Sevilla, Laser Welding of NiTi Orthodontic Archwires for Selective Force Application, Journal of Materials Science: Materials in Medicine, 19 (2), p 525-529, 2008. 17. Q. Li, and Y. Zhu, Impact Butt Welding of NiTi and Stainless Steel—An Examination of Impact Speed Effect, Journal of Ma- terials Processing Technology, 255, p 434-442, 2018. 18. J. Matsunaga, et al., Joining Characteristics of Titani- um-based Orthodontic Wires Connected by Laser and Electri- cal Welding Methods, Journal of Materials Science: Materials in Medicine, 26 (1), p 50, 2015. 19. F. Miura, M. Mogi, and Y. Ohura, Japanese NiTi Alloy Wire: Use of the Direct Electric Resistance Heat Treatment Method, The European Journal of Orthodontics, 10 (1), p 187-191, 1988. 20. F. Miura, Orthodontic Archwire, U.S. Patent 5,017,133, 1991. 21. F.J. Gil, et al., NiTi Superelastic Orthodontic Wires with Variable Stress Obtained by Ageing Treatments, Materials Letters, 104, p 5-7, 2013. 22. R. Sachdeva and F. Farzin-Nia, Shape Memory Orthodon- tic Archwire Having Variable Recovery Stresses, U.S. Patent 5,683,245, 1997. 23. A. Mehta, Thermomechanical Characterization of Variable Force NiTi Orthodontic Archwires (Doctoral dissertation, Mar- quette University), 2015. 24. W.E. Roberts, Bone Physiology, Metabolism and Biome- chanics in Orthodontic Practice, Orthodontics Current Princi- ples and Techniques, 5, p 287-343, 2011. 25. E.W. Roberts and D. Sarver, Superelastic Archwire Can Achieve Efficient Movement and Reduced Trauma, Ortho- dontic Practice US, 2020. Accessed September 9, 2021, from https://orthopracticeus.com/superelastic-archwire-can- achieve-efficient-movement-and-reduced-trauma/. 26. M.E. Olsen, SmartArch Multi-Force Superelastic Archwires: A New Paradigm in Orthodontic Treatment Efficiency, JCO Online, February 2020. Accessed September 9, 2021, from https://www.jco-online.com/archive/2020/02/70-smartarch- multi-force-superelastic-archwires-a-new-paradigm-in- orthodontic-treatment-efficiency/. 27. J. Kozlowski, Achieving New Standards of Care When Technology Meets Biology, Orthodontic Products, February 19, 2021. Accessed September 9, 2021, from https://ortho- donticproductsonline.com/clinical-tips/brackets-and-wires/ kozlowski-achieving-new-standards-care-technology- meets-biology/. 28. H. Walia, W.A. Brantley, and H. Gerstein, An Initial Investi- gation of the Bending and Torsional Properties of Nitinol Root Canal Files, Journal of Endodontics, 14 (7), p 346-351, 1988. 29. T.R. Tripi, A. Bonaccorso, and G.G. Condorelli, Cyclic Fa- tigue of Different Nickel-Titanium Endodontic Rotary In- struments, Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology, and Endodontology, 102 (4), p e106-e114, 2006. 30. A.C.D. Viana, et al., Influence of Sterilization onMechanical Properties and Fatigue Resistance of Nickel–Titanium Rotary Endodontic Instruments, International Endodontic Journal, 39 (9), p 709-715, 2006. 31. B. Sattapan, et al., Defects in Rotary Nickel-Titanium Files After Clinical Use, Journal of Endodontics, 26 (3), p 161-165, 2000. 9 FEATURE