计算机辅助设计与制造(CAD-CAM)义齿基托材料的弯曲性能和硬度
Flexural Properties and Hardness of CAD-CAM Denture Base Materials.
作者信息
Fouda Shaimaa M, Gad Mohammed M, Abualsaud Reem, Ellakany Passent, AlRumaih Hamad S, Khan Soban Q, Akhtar Sultan, Al-Qarni Faisal D, Al-Harbi Fahad A
机构信息
Department of Substitutive Dental Sciences, College of Dentistry, Imam Abdulrahman Bin Faisal University, Dammam, Saudi Arabia.
Department of Dental Education, College of Dentistry, Imam Abdulrahman Bin Faisal University, Dammam, Saudi Arabia.
出版信息
J Prosthodont. 2023 Apr;32(4):318-324. doi: 10.1111/jopr.13535. Epub 2022 May 30.
PURPOSE
To compare flexural strength, elastic modulus, and surface hardness of computer aided design and computer aided manufacturing CAD-CAM milled, 3D-printed, and heat-polymerized denture base resins.
MATERIALS AND METHODS
A total of 120 specimens were fabricated from heat-polymerized acrylic resin (HP), milled resin (Avadent and IvoCad), and 3D-printed resin (ASIGA, FormLabs, and NextDent). The specimens were divided into 6 groups according to the type of denture base material (n = 20/material) (10/flexural properties and 10/hardness). Flexural strength and elastic modulus of the specimens were evaluated by 3-point bending test and surface hardness by Vickers hardness test. To test flexural properties, the specimens were fabricated according to ISO 20795-1:2013 standards (64 × 10 × 3.3 ± 0.2 mm). The dimensions for hardness test were 15 × 10 × 2.5 ± 0.2 mm. Scanning electron microscope was used to evaluate the surface morphology of the fractured specimens. The means and standard deviations were calculated, followed by one-way ANOVA and Tukey post-hoc test (α = 0.05).
RESULTS
Milled resins showed significantly higher values for flexural strength, elastic modulus, and surface hardness, followed by HP and then 3D-printed resins (p < 0.001). Within milled groups, flexural strength of AvaDent was significantly higher than IvoCad (p < 0.001), while elastic modulus and hardness didn't show significant difference. Within 3D-printed resins, ASIGA showed the highest flexural strength and elastic modulus, insignificantly with FormLabs (p = 0.595) and significantly with NextDent (p = 0.008). ASIGA also showed significantly the highest hardness among the 3D-printed groups. No significant difference was found between FormLabs and NextDent in flexural strength (p = 0.357), elastic modulus (p = 1.00), or surface hardness (p = 0.987).
CONCLUSION
CAD-CAM milled resins had greater flexural properties and hardness compared to heat-polymerized acrylic resin and 3D-printed resins. Although 3D-printed samples showed the lowest values of tested properties, the flexural strength and modulus were above clinically acceptable values.
目的
比较计算机辅助设计与计算机辅助制造(CAD-CAM)铣削、3D打印和热聚合义齿基托树脂的弯曲强度、弹性模量和表面硬度。
材料与方法
用热聚合丙烯酸树脂(HP)、铣削树脂(Avadent和IvoCad)以及3D打印树脂(ASIGA、FormLabs和NextDent)制作了总共120个样本。根据义齿基托材料类型将样本分为6组(每种材料n = 20)(10个用于弯曲性能测试,10个用于硬度测试)。通过三点弯曲试验评估样本的弯曲强度和弹性模量,通过维氏硬度测试评估表面硬度。为测试弯曲性能,样本按照ISO 20795-1:2013标准制作(64×10×3.3±0.2 mm)。硬度测试的尺寸为15×10×2.5±0.2 mm。使用扫描电子显微镜评估断裂样本的表面形态。计算均值和标准差,随后进行单因素方差分析和Tukey事后检验(α = 0.05)。
结果
铣削树脂的弯曲强度、弹性模量和表面硬度值显著更高,其次是HP树脂,然后是3D打印树脂(p < 0.001)。在铣削组中,AvaDent的弯曲强度显著高于IvoCad(p < 0.001),而弹性模量和硬度没有显著差异。在3D打印树脂中,ASIGA的弯曲强度和弹性模量最高,与FormLabs相比无显著差异(p = 0.595),与NextDent相比有显著差异(p = 0.008)。ASIGA在3D打印组中表面硬度也显著最高。FormLabs和NextDent在弯曲强度(p = 0.357)、弹性模量(p = 1.00)或表面硬度(p = 0.987)方面没有显著差异。
结论
与热聚合丙烯酸树脂和3D打印树脂相比,CAD-CAM铣削树脂具有更高的弯曲性能和硬度。虽然3D打印样本的测试性能值最低,但其弯曲强度和模量高于临床可接受值。
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