Effect of machining damage on the surface roughness and flexural strength of CAD-CAM materials.

Hetaf Redwan,Yuwei Fan,Russell Giordano
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Abstract

STATEMENT OF PROBLEM Computer-aided design and computer-aided manufacturing (CAD-CAM) materials are available for different types of restorations. However, the longevity of the material is affected by chipping, milling damage, flexural strength, and surface roughness, and a standard edge chipping test or standardized measurements are unavailable for monitoring edge chipping of rotary instrument-milled materials. PURPOSE The purpose of this in vitro study was to analyze the surface roughness and edge chipping of different CAD-CAM diamond rotary instrument-milled dental material bars, correlate the effect of machining damage with material strength, and compare the flexural strength of rotary instrument-milled and sectioned CAD-CAM blocks. MATERIAL AND METHODS Five dental CAD-CAM materials were tested: lithium disilicate glass-ceramic (IPS e.max CAD), leucite-reinforced glass-ceramic (IPS Empress CAD); feldspathic porcelain (Vitablocs Mark II); feldspar ceramic-polymer infiltrated (Enamic), and composite resin (Lava Ultimate). Rectangular bars were designed and milled for each material (n=10). The surface roughness of the bars was measured using a profilometer. All edges of 3 selected bars were analyzed with scanning electron microscopy (SEM) for the chip length, depth, and area. The 3-point bend test was used to test the flexural strength of rotary instrument-milled and saw-cut bars with the same dimensions. Analysis of variance and the Tukey honestly significant difference post hoc test were used to determine the difference among the groups (α=.05). RESULTS IPS e.max CAD had the highest surface roughness and Lava Ultimate the lowest. Lava Ultimate had the smallest chipping factor and IPS Empress CAD the largest. The surface location significantly affected the chipping depth, area, and length (P<.05). A strong correlation was found between the decrease in flexural strength and the chipping length on the central tensile side of the rotary instrument-milled materials (R2=.62, P=.01), as well as the chipping depth (R2=.44, P=.01). CONCLUSIONS Edge chipping was significantly associated with the material type, milling surface, and edge location and strongly correlated with a decrease in flexural strength.
加工损伤对 CAD-CAM 材料表面粗糙度和抗弯强度的影响。
问题陈述 计算机辅助设计和计算机辅助制造(CAD-CAM)材料可用于不同类型的修复体。本体外研究的目的是分析不同 CAD-CAM 金刚石旋转器械铣削牙科材料棒的表面粗糙度和边缘崩边,将加工损伤的影响与材料强度相关联,并比较旋转器械铣削和切片 CAD-CAM 块的抗弯强度。材料和方法测试了五种牙科 CAD-CAM 材料:二硅酸锂玻璃陶瓷(IPS e.max CAD)、白云石强化玻璃陶瓷(IPS Empress CAD)、长石瓷(Vitablocs Mark II)、长石陶瓷-聚合物浸润(Enamic)和复合树脂(Lava Ultimate)。每种材料都设计并铣制了矩形条(n=10)。用轮廓仪测量了棒材的表面粗糙度。用扫描电子显微镜(SEM)分析了所选 3 根棒材所有边缘的切屑长度、深度和面积。使用三点弯曲试验来测试相同尺寸的旋转仪器铣削和锯切棒材的抗弯强度。采用方差分析和 Tukey 诚实显著性差异事后检验来确定各组之间的差异(α=.05)。结果IPS e.max CAD 的表面粗糙度最高,Lava Ultimate 的表面粗糙度最低。Lava Ultimate 的崩角系数最小,IPS Empress CAD 的崩角系数最大。表面位置对崩角深度、面积和长度有明显影响(P<.05)。结论边缘崩角与材料类型、铣削表面和边缘位置显著相关,并与抗弯强度下降密切相关。
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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