Wei Yong-Jie, Silikas Nick, Zhang Zhen-Ting, Watts David C
Department of Prosthodontics, School of Stomatology, Capital Medical University, Beijing, PR China.
Dent Mater. 2013 Sep;29(9):e218-26. doi: 10.1016/j.dental.2013.05.010. Epub 2013 Jul 3.
This study evaluated the relationship between mass changes and hygroscopic dimensional changes during water sorption/desorption cycles in new resin composites.
A silorane posterior composite (Filtek(®) Silorane, FS), two micro-fine hybrid composites (GC Gradia Direct Anterior, GDA; GC Gradia Direct Posterior, GDP), a universal composite (GC Kalore, GCK), and a self-adhering flowable composite (Vertise(®) Flow, VF) were evaluated. 25 (n=5) disk specimens (15mm×2mm) were prepared according to ISO 4049. Water sorption was measured gravimetrically. Hygroscopic expansions were measured by a laser micrometer regularly during 150 d water storage and 40 d recondition periods, all at 37°C. Data were analyzed by repeated measures ANOVA, one-way ANOVA and Tukey's post hoc test (p<0.05).
Mass changes after 150 d water immersion ranged from 0.68% (±0.02) for FS to 2.83% (±0.11) for VF and the corresponding hygroscopic expansions were from 0.74% (±0.05) for FS to 4.79% (±0.18) for VF. The differences were significant for all materials (p<0.001), except mass changes between GCK and GDP, as well as hygroscopic changes between GCK and GDA. The relationship between hygroscopic expansions and mass changes was initially non-linear and then tended toward linear behavior. But at the late stage of water sorption the hygroscopic expansion of GCK and VF was slightly sigmoidal with respect to their mass changes.
Relationships between hygroscopic expansion and mass change were determined for some diverse resin-matrix composites. The initial non-linearity for all materials suggests a lower expansion rate due to occupancy of internal free volume by water ingress. The silorane composite FS showed statistically the lowest mass change and hygroscopic dimensional change.
本研究评估了新型树脂复合材料在吸水/脱水循环过程中质量变化与吸湿尺寸变化之间的关系。
对一种硅氧烷类后牙复合材料(Filtek(®) Silorane,FS)、两种微填料混合复合材料(GC Gradia Direct Anterior,GDA;GC Gradia Direct Posterior,GDP)、一种通用复合材料(GC Kalore,GCK)以及一种自粘结可流动复合材料(Vertise(®) Flow,VF)进行评估。按照ISO 4049制备25个(n = 5)圆盘试件(15mm×2mm)。采用重量法测量吸水率。在37°C下,于150天的水储存期和40天的恢复期内,定期用激光测微仪测量吸湿膨胀。数据通过重复测量方差分析、单因素方差分析和Tukey事后检验进行分析(p < 0.05)。
浸泡150天后,质量变化范围为FS的0.68%(±0.02)至VF的2.83%(±0.11),相应的吸湿膨胀范围为FS的0.74%(±0.05)至VF的4.79%(±0.18)。除GCK与GDP之间的质量变化以及GCK与GDA之间的吸湿变化外,所有材料之间的差异均具有统计学意义(p < 0.001)。吸湿膨胀与质量变化之间的关系最初是非线性的,然后趋于线性。但在吸水后期,GCK和VF的吸湿膨胀相对于其质量变化呈轻微的S形。
确定了一些不同树脂基复合材料的吸湿膨胀与质量变化之间的关系。所有材料的初始非线性表明,由于水进入占据了内部自由体积,膨胀率较低。硅氧烷复合材料FS在统计学上显示出最低的质量变化和吸湿尺寸变化。
