Biomaterials Unit, University of Birmingham School of Dentistry, St. Chad's Queensway, Birmingham B4 6NN, UK.
Dent Mater. 2012 Aug;28(8):880-7. doi: 10.1016/j.dental.2012.04.017. Epub 2012 May 11.
To develop a novel methodology to generate specimens for bi-axial flexure strength (BFS) determination from a 'chair-side' CAD-CAM feldspathic ceramic with surface defect integrals analogous to the clinical state. The hypotheses tested were: BFS and surface roughness (R(a)) are independent of machining variability introduced by the renewal or deterioration of form-grinding tools and that a post-machining annealing cycle would significantly modify BFS.
Nominally identical disc-shaped specimens (11 mm diameter, 1.1mm thickness) were machined with identical design and operative parameters from Vita Mark II feldspathic ceramic. Six individual bur sets (Groups A-F) generated 14 specimens each. Three groups were annealed between glass transition and softening temperatures. 3D contact profilometry determined surface roughness before and following annealing and prior to BFS determination. Scanning electron microscopy was undertaken to examine machining tools and perform fractographic analyses of ceramic fracture fragments. Statistical analysis included independent and pairwise analyses of R(a)-values (P<0.05), Weibull analysis of BFS data and Pearsons correlations.
Mean R(a) differed significantly between groups (P<0.01) but was unaffected by annealing (P = 0.42). Mean BFS was significantly altered by bur-set (P<0.01). Annealing resulted in no significant modification of the Weibull parameters as the 95% confidence intervals overlapped. No significant correlations between machining order and BFS or R(a) were observed (P>0.05).
Surface roughness and the nature of strength limiting defects appear to be probabilistic with flaw generation dependent on a random selection of a bur and a random machining sequence. The variability in BFS with machining could account for premature clinical failures.
开发一种新方法,从具有类似于临床状态的表面缺陷积分的“椅旁” CAD-CAM 长石陶瓷中生成用于双轴弯曲强度(BFS)测定的样本。测试的假设是:BFS 和表面粗糙度(R(a))与由成型磨具的更新或恶化引起的加工变化无关,并且后加工退火循环会显著改变 BFS。
从 Vita Mark II 长石陶瓷中以相同的设计和操作参数用相同的名义相同的盘形样本(直径 11mm,厚度 1.1mm)进行机械加工。六组个体磨头(A-F 组)每组生成 14 个样本。三组在玻璃化转变和软化温度之间进行退火。3D 接触式轮廓仪在退火前后和 BFS 测定之前确定表面粗糙度。扫描电子显微镜用于检查加工工具,并对陶瓷断裂碎片进行断口分析。统计分析包括 R(a)值的独立和成对分析(P<0.05)、BFS 数据的威布尔分析和 Pearson 相关性。
组间平均 R(a)值差异显著(P<0.01),但不受退火影响(P = 0.42)。磨头组间平均 BFS 差异显著(P<0.01)。由于 95%置信区间重叠,退火对威布尔参数没有显著影响。未观察到加工顺序与 BFS 或 R(a)之间的显著相关性(P>0.05)。
表面粗糙度和强度极限缺陷的性质似乎是概率性的,缺陷的产生取决于磨头的随机选择和随机加工顺序。与加工相关的 BFS 变化可能导致临床早期失效。
