Dunn William J, Strong Toni C
Department of Dental Research, Keesler Medical Center, Keesler Air Force Base, MS 39534, USA.
Quintessence Int. 2007 Jan;38(1):e20-6.
The purpose of this in vitro study was to investigate the effect of isopropyl alcohol and unfilled resin on the flexural strength of incrementally layered resin-based composite beams.
Five groups of 30 composite beams were fabricated in a 2 3 2 3 24-mm Teflon split-mold: group 1 (control group), a homogeneous resin composite beam; group 2, 2 increments with an air-inhibited layer between the increments; group 3, 2 increments with a Mylar strip placed against the composite interface during polymerization of the first increment; group 4, 2 increments with the first increment contoured with an isopropyl alcohol (70%) lubricated instrument; and group 5, 2 increments with the first increment contoured with unfilled resin lubricating the application instrument. Each increment was polymerized for 40 seconds on both front and back surfaces. The flexural strength of the composite specimens was determined using 4-point bending in an Instron universal testing machine.
The mean flexural strength in MPa and standard deviation were as follows: group 1: 142.5 (17.3); group 2: 98.2 (15.2); group 3: 105.9 (16.3); group 4: 103.4 (19.4); and group 5: 106.1 (21.3). One-way analysis of variance detected a statistically significant difference among the groups (P < .001). Tukey's HSD post hoc tests determined that only group 1 was significantly different from the other 4 groups.
The use of isopropyl alcohol and unfilled resin as instrument lubricants for incremental composite buildup seems to have little effect on the flexural strength of light-cured composite.
本体外研究旨在探讨异丙醇和未填充树脂对分层增量树脂基复合梁弯曲强度的影响。
在一个2×3×2×3×24毫米的聚四氟乙烯分体模具中制作五组每组30根复合梁:第1组(对照组),均质树脂复合梁;第2组,分两层增量,两层之间有空气抑制层;第3组,分两层增量,在第一层增量聚合时,在复合界面处放置聚酯薄膜条;第4组,分两层增量,用异丙醇(70%)润滑的器械对第一层增量进行塑形;第5组,分两层增量,用未填充树脂润滑涂抹器械对第一层增量进行塑形。每层增量在正反两面均聚合40秒。使用Instron万能材料试验机通过四点弯曲法测定复合试件的弯曲强度。
以兆帕为单位的平均弯曲强度及标准差如下:第1组:142.5(17.3);第2组:98.2(15.2);第3组:105.9(16.3);第4组:103.4(19.4);第5组:106.1(21.3)。单因素方差分析检测到各组之间存在统计学显著差异(P <.001)。Tukey's HSD事后检验确定只有第1组与其他4组有显著差异。
使用异丙醇和未填充树脂作为分层增量复合树脂堆积的器械润滑剂似乎对光固化复合材料的弯曲强度影响不大。
