材料和加工滞后时间对3d打印间接键合夹具材料辐射能量穿透率和模量的影响

IF 2.4 3区医学 Q2 DENTISTRY, ORAL SURGERY & MEDICINE

Orthodontics & Craniofacial Research Pub Date : 2025-03-21 DOI:10.1111/ocr.12923

Megan Meyer, Kamal Awad, Baylie Subjeck, Joe C Ontiveros, Venu G Varanasi, F Kurtis Kasper

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引用次数: 0

摘要

目的：探讨3D打印与打印后处理之间的时间（滞后时间）对3D打印间接粘接夹具材料模量和辐射能量穿透的影响。材料和方法：测试三种3d打印树脂（Formlabs IBT Resin, SprintRay IDB 2, project GR-18.1 IB）三个延迟时间(0、16和64 h；N = 10 /组)。利用功率计测量辐照能穿透量，并对通过试样固化的复合材料进行维氏硬度评定。力学性能通过单轴试验和三点弯曲进行评估。结果：树脂类型和延迟时间对辐照能穿透和复合硬度有显著影响。滞后时间的影响因树脂而异。单轴测试的杨氏模量显示，只有Pro3dure树脂有显著变化，而三点弯曲显示，只有SprintRay IDB 2树脂的柔韧性有显著变化。结论：树脂类型和印后加工前的滞后时间会影响3d打印间接粘接夹具材料的重要功能性能，包括辐射能量穿透性和柔韧性。这些发现表明，优化滞后时间可以提高3d打印间接粘接夹具材料的性能。

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Effect of Material and Processing Lag Time on Radiant Energy Penetration and Modulus of 3D-Printed Indirect Bonding Jig Materials.

Objective: To investigate the effect of the time between 3D printing and post-print processing (lag time) on the modulus and radiant energy penetration of 3D-printed indirect bonding jig materials.

Materials and methods: Three 3D-printed resins (Formlabs IBT Resin, SprintRay IDB 2, Pro3dure GR-18.1 IB) were tested for three lag times (0, 16 and 64 h; n = 10 per group). Radiant energy penetration was measured using a power meter, and Vickers hardness was assessed for composites cured through the samples. Mechanical properties were evaluated using uniaxial testing and three-point bending.

Results: Both the resin type and lag time significantly affected radiant energy penetration and composite hardness. The effect of lag time varied by resin. Young's modulus from uniaxial testing showed significant changes only for the Pro3dure resin, while three-point bending indicated significant flexibility changes only for the SprintRay IDB 2 resin.

Conclusions: The resin type and the lag time before post-print processing influence important functional properties of 3D-printed indirect bonding jig materials, including radiant energy penetration and flexibility. These findings suggest that optimising lag time may enhance the performance of 3D-printed indirect bonding jig materials.

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来源期刊

Orthodontics & Craniofacial Research 医学-牙科与口腔外科

CiteScore

5.30

自引率

3.20%

发文量

审稿时长

>12 weeks

期刊介绍： Orthodontics & Craniofacial Research - Genes, Growth and Development is published to serve its readers as an international forum for the presentation and critical discussion of issues pertinent to the advancement of the specialty of orthodontics and the evidence-based knowledge of craniofacial growth and development. This forum is based on scientifically supported information, but also includes minority and conflicting opinions. The objective of the journal is to facilitate effective communication between the research community and practicing clinicians. Original papers of high scientific quality that report the findings of clinical trials, clinical epidemiology, and novel therapeutic or diagnostic approaches are appropriate submissions. Similarly, we welcome papers in genetics, developmental biology, syndromology, surgery, speech and hearing, and other biomedical disciplines related to clinical orthodontics and normal and abnormal craniofacial growth and development. In addition to original and basic research, the journal publishes concise reviews, case reports of substantial value, invited essays, letters, and announcements. The journal is published quarterly. The review of submitted papers will be coordinated by the editor and members of the editorial board. It is policy to review manuscripts within 3 to 4 weeks of receipt and to publish within 3 to 6 months of acceptance.