A pilot study on three-dimensional printing of stainless steel arch bars for orthognathic segmental jaw surgeries

Q3 Medicine Annals of 3D printed medicine Pub Date : 2022-06-01 DOI:10.1016/j.stlm.2022.100055

Yi Lin Song , Na Yu , Danny, Ben Poon Tan , Ming Tak Chew

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引用次数: 1

Abstract

Introduction

The fabrication process of an arch bar used during a corrective jaw surgery is traditionally labour intensive and time consuming when done manually by a dental technician. The objectives of this study are therefore to test the feasibility of using selective laser melting (SLM) to directly print patient-specific stainless steel (SS316L) arch bars from computer-aided-design (CAD) files and investigate the most optimal printing parameters to achieve that.

Material and methods

An initial print-out of 72 SS316L test coupons was done to determine the most optimal print orientation and print bed location based on chemical composition and mechanical test results from 4 different printer settings:

Parameter 1: 200 W, 50 µm

Parameter 2: 150 W, 50 µm

Parameter 3: 200 W, 30 µm

Parameter 4: 150 W, 30 µm

Ten archived digital lower dentition scans were then used to produce 10 CAD files for 3D printing of 280 dental arch bars using the aforementioned parameters. All 3D printed arch bars were then assessed for fit and subjected to physical testing.

Results

Test coupons printed using parameter 4 in the horizontal print bed (0°) location had the best mechanical properties. Similarly, for 3D printed arch bars, those printed using parameter 4 had the highest proportion of arch bars with satisfactory fit. The most common area of distortion is the posterior molar region.

Conclusion

3D printing of SS316L dental arch bars is feasible via a digital workflow using low laser power (150 W) and low layer thickness (30 µm) in a Renishaw AM 400 printer (from Renishaw plc, Gloucestershire).

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正颌节段颌外科不锈钢拱杆三维打印的初步研究

在颌骨矫正手术中使用的弓棒的制作过程传统上是由牙科技师手工完成的劳动密集型和耗时的。因此，本研究的目的是测试使用选择性激光熔化(SLM)从计算机辅助设计(CAD)文件中直接打印患者专用不锈钢(SS316L)拱杆的可行性，并研究实现这一目标的最佳打印参数。材料和methodsAn最初印出的72 SS316L测试优惠券是为了确定最优的打印方向和打印床位置基于化学成分和力学测试结果从4种不同的打印机设置:参数1:200 W, 50µmParameter 2: 150 W, 50µmParameter 3: 200 W, 30µmParameter 4: 150 W, 30µmTen存档数字低齿列扫描被用于生产280牙科CAD文件的3 d打印拱酒吧使用上述参数。然后评估所有3D打印的拱形杆的适合性并进行物理测试。结果参数4在水平打印床(0°)位置打印的试样力学性能最佳。同样，对于3D打印的拱杆，使用参数4打印的拱杆贴合比例最高。最常见的变形区域是后磨牙区。结论采用低激光功率(150 W)和低层厚度(30µm)的数字化工作流程，在雷尼绍AM 400打印机(来自雷尼绍plc, Gloucestershire)上3d打印SS316L牙槽棒是可行的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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