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Force system of 3D-printed orthodontic aligners made of shape memory polymers: an <i>in vitro</i> study

Madina Sharif, Christoph Bourauel, Ahmed Ghoneima, Jörg Schwarze, Abdulaziz Alhotan, Tarek M. Elshazly

2024Virtual and Physical Prototyping18 citationsDOIOpen Access PDF

Abstract

This study aimed to report forces and moments delivered by 3D-printed aligners. Tera Harz TC-85 resin and Zendura FLX (ZF) thermoformed sheets (0.76 mm) were used. Rectangular strip specimens (50 × 10 × 0.6 mm) were produced for a three-point bending test (3PB) at different temperatures. Full anatomical aligners were produced for 3D force measurements on different teeth and directions at 37 °C, using a custom-made device. ZF exhibited flexural forces between 1.7 and 2.3 N, while TC-85 from 0.3 N to 2.7 N, with temperature affecting TC-85 more significantly. At lower temperatures, TC-85 was stiffer than ZF, but at higher temperatures, it became less rigid. The 3D-force measurements indicated comparable values for both materials. Force ranged from 0.3–1.7 N and moment from 4.8–9.4 Nmm. The study concluded that TC-85 3D-printed aligners deliver biologically compatible forces for orthodontic movement and offer better control over thickness.HighlightsThe 3D-printed Tera Harz TC-85 resin revolutionises aligner production.Tera Harz TC-85 aligners generate forces within the orthodontic accepted range.Shape recovery of TC-85 can enable adaptability and larger incremental step size.The 3D printing offers greater control over aligner design and thickness.

Topics & Concepts

Shape-memory polymer3d printedMaterials scienceComposite materialPolymerEngineering drawingOrthodonticsComputer scienceBiomedical engineeringEngineeringMedicinePolymer composites and self-healingPhotopolymerization techniques and applicationsPhotochromic and Fluorescence Chemistry
Force system of 3D-printed orthodontic aligners made of shape memory polymers: an <i>in vitro</i> study | Litcius