使用 PLA + 和 PC 增强运动护齿:减少应力、吸收能量和优化拓扑结构。

IF 3.1 2区 医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE
P Vicky Kumar, Anil Kumar Birru, Nelson Muthu, Amandeep Kaur
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引用次数: 0

摘要

目的:本文旨在比较不同护齿材料在预防体育活动中口腔和颌面受伤方面的效果。本研究比较了另外两种熔融长丝材料--聚乳酸加(PLA+)和聚碳酸酯(PC)与最常用的护齿制作材料乙烯-醋酸乙烯(EVA)的应力降低和能量吸收能力:对两个人的头骨进行建模,并模拟拳击手套以 1 kN 的力沿 x、y 和 z 轴以 5 mm 的位移进行击打。首先,比较了头骨在沿三个垂直方向受力时的最大主应力曲线。此外,本研究还考察了材料的能量吸收特性,包括其特定能量吸收特性和初始峰值 von Mises 应力。此外,本研究还采用拓扑优化方法为护齿设计了一种替代方案,以提高特定能量吸收能力:结果:无护齿器的模型显示牙齿的应力集中度最高,为 32.298 兆帕,其次是 EVA 材料,其最大主应力为 28.525 兆帕。另一方面,熔融长丝三维材料(如 PLA + 和 PC)在下颌脱位方面表现出更好的机械效果,下颌牙和上颌牙的最大主应力分别降低了 30.82% 和 51.25%。虽然 EVA 在优化后的比能量吸收能力(2.24 kJ/kg)比 PLA + 和 PC 更强,但下颌区域的峰值主应力相对更高。然而,拓扑优化后,PLA + 的能量吸收能力提高了 4.5 倍,达到 1.37 kJ/kg,PC 从 0.165 kJ/kg 提高到 0.38 kJ/kg:这项研究表明,聚乳酸 + 和聚碳酸酯比 EVA 具有更强的应力减小能力,是制造体育运动护齿的理想材料。这项研究强调了拓扑优化在牙科材料科学与工程中的重要性,以开发更安全、更有效的护齿设计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enhancing sports mouthguards with PLA  + and PC: stress reduction, energy absorption, and topology optimization.

Objectives: The objective of this paper was to compare the effectiveness of different materials for mouthguards in preventing oral and maxillofacial injuries during sports activities. The present study compares the stress-reduction and energy absorption capabilities of two other fused filament materials - poly(lactic-acid plus) (PLA+) and polycarbonate (PC), with Ethylene-vinyl acetate (EVA), which is the most commonly used material for mouthguard fabrication.

Materials and methods: Two human skulls were modelled, and a boxing glove simulated punches along the x, y, and z-axes with 5 mm displacement with 1 kN force. Firstly, the maximum principal stress curve in the skull was compared for forces along the three perpendicular directions. Furthermore, the present study examines materials energy absorption properties, including their specific energy absorption characteristics and initial peak von Mises stresses. Additionally, a topology optimization approach is used to create an alternative design for a mouthguard to improve specific energy absorption.

Results: The model without a mouthguard showed the highest stress concentration of 32.298 MPa in the teeth, followed by the EVA material, which resulted in a maximum principal stress of 28.525 MPa. Fused filament 3D materials, such as PLA + and PC, on the other hand, showed better mechanical effectiveness in both lower jaw dislocation and lower maximum principal stress by 30.82% and 51.25% in the mandibular and maxillary teeth. Though EVA comparatively shows better specific energy absorption capability at 2.24 kJ/kg post-optimization than PLA + and PC, the peak principal stress experienced in the mandibular region was comparatively higher. The topology optimization, however, improved the energy-absorbing capabilities of PLA + by 4.5 times, reaching 1.37 kJ/kg and PC from 0.165 kJ/kg to 0.38 kJ/kg.

Conclusions: This study demonstrates that PLA + and PC have better stress reduction capabilities than EVA and could be promising materials for the fabrication of mouthguards in sports activities. This study highlights the importance of topology optimization in dental materials science and engineering to develop safer and more effective mouthguard designs.

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来源期刊
Clinical Oral Investigations
Clinical Oral Investigations 医学-牙科与口腔外科
CiteScore
6.30
自引率
5.90%
发文量
484
审稿时长
3 months
期刊介绍: The journal Clinical Oral Investigations is a multidisciplinary, international forum for publication of research from all fields of oral medicine. The journal publishes original scientific articles and invited reviews which provide up-to-date results of basic and clinical studies in oral and maxillofacial science and medicine. The aim is to clarify the relevance of new results to modern practice, for an international readership. Coverage includes maxillofacial and oral surgery, prosthetics and restorative dentistry, operative dentistry, endodontics, periodontology, orthodontics, dental materials science, clinical trials, epidemiology, pedodontics, oral implant, preventive dentistiry, oral pathology, oral basic sciences and more.
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