Abstract
BackgroundThe purpose of the presented investigation is to evaluate the resulting torque on loaded 3D printed springs using different coil thickness and length.MethodsSpecimens were designed and printed using the 3D printer MAX (Asiga, Sydney, Australia) with 3D printable, experimental, flexible material (Code:BM2008, GC, Tokyo, Japan). The specimens were divided into three groups according to spring coil design. Control group (n = 18), length group (n = 19) and thickness group (n = 22). Groups were tested using a Sauter Machine for torque calculation (DB, Grindelwald, Switzerland) in conjunction with a universal testing machine (Zwick Z010, Ulm, Germany) for clock-wise and anti-clockwise testing. Statistical analysis was performed using the Steel–Dwass test to compare median values of the three groups in both testing directions (p < 0.001).ResultsThe highest torque value was determined in the thickness group for both clockwise and anti-clockwise testing directions, achieving 44.00 N/mm and 39.62 N/mm respectively. The length group ranged from 21.65 to 11.04 N/mm in clockwise direction and from 18.04 to 11.38 N/mm in counter-clockwise testing. The control group ranged from 22.72 to 17.18 N/mm in the clock-wise direction while in the anti-clock wise testing it ranged from 21.34 to 16.02 N/mm.ConclusionsThe amount of torque produced from the computer aided designing/computer aided manufacturing (CAD/CAM) springs is being affected by diameter more than the length design parameter in comparison to the control group. The values of the thickness group are significantly higher than those of the length group (P < 0.001).
Highlights
The purpose of the presented investigation is to evaluate the resulting torque on loaded Three dimensionally (3D) printed springs using different coil thickness and length
Brackets and wires can be Othman et al BMC Oral Health (2021) 21:104 fabricated by computer aided designing/computer aided manufacturing (CAD/CAM) technology on a virtual setup designed before commencing with the treatment
Digital orthodontic treatment is being presented in literature for clinical usage as CAD/CAM technology is nowadays being directly involved in dentistry [12,13,14]
Summary
The purpose of the presented investigation is to evaluate the resulting torque on loaded 3D printed springs using different coil thickness and length. The usage of different orthodontic spring designs as the T or delta loops made of titanium-molybdenum or super elastic nickel titanium material could be appropriate for producing a clinically usable forces which could provide mechanical teeth retraction [6,7,8]. The usage of CAD/CAM in orthodontics is nowadays combined with aligner virtual production and appliance design and manufacturing for fixed and removable functional devices [9, 10]. Digital orthodontic treatment is being presented in literature for clinical usage as CAD/CAM technology is nowadays being directly involved in dentistry [12,13,14]. Digital designing and printing of orthodontic springs has until now not been presented in literature nor tested. The necessary requirements are influenced by the individual design of each spring and the ability to attach and support the spring to the tooth surface
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