Montenegro Alexandre Campos, Machado Aldir Nascimento, Depes Gouvêa Cresus Vinicius
Odontoclínica Central da Marinha (Brazilian Navy), Brazil.
Implant Dent. 2008 Dec;17(4):451-60. doi: 10.1097/ID.0b013e31818c4947.
The aim of this in vitro study was to evaluate the tensile strength of titanium cylinders cemented on stainless steel abutment mock-ups by the Cerazone system.
Four types of cements were used: glass ionomer, Fuji I (GC); zinc phosphate, Cimento LS (Vigodent); zinc oxide without eugenol, Rely x Temp NE (3M ESPE); and resin cement, Rely x ARC (3M ESPE). Four experimental groups were formed, each composed of 5 test specimens. Each test specimen consisted of a set of 1 cylinder and 1 stainless steel abutment mock-up. All cements tested were manipulated in accordance with manufacturers' instructions. A static load of 5 Newtons (N) for 2 minutes was used to standardize the procedure. The tensile tests were performed by a mechanical universal testing machine (EMIC DL500MF) at a crosshead speed of 0.5 mm/min.
The highest bonding values resulting from the experiment were obtained by Cimento LS (21.86 MPa mean), followed by the resin cement Rely x ARC (12.95 MPa mean), Fuji I (6.89 MPa mean), and Rely x Temp NE (4.71 MPa mean). The results were subjected to analysis of variance (ANOVA) and the Student's t test.
The cements differed amongst them as regards tensile strength, with the highest bonding levels recorded with zinc phosphate (Cimento LS) and the lowest with the zinc oxide without eugenol (Rely x Temp NE).
本体外研究的目的是评估通过Cerazone系统粘结在不锈钢基台模型上的钛圆柱体的拉伸强度。
使用了四种类型的粘结剂:玻璃离子水门汀,Fuji I(GC);磷酸锌水门汀,Cimento LS(Vigodent);不含丁香酚的氧化锌水门汀,Rely x Temp NE(3M ESPE);以及树脂粘结剂,Rely x ARC(3M ESPE)。形成了四个实验组,每组由5个测试样本组成。每个测试样本由一组1个圆柱体和1个不锈钢基台模型组成。所有测试的粘结剂均按照制造商的说明进行操作。使用5牛顿(N)的静载荷持续2分钟来标准化操作程序。拉伸试验由机械万能试验机(EMIC DL500MF)以0.5毫米/分钟的十字头速度进行。
实验获得的最高粘结值由Cimento LS(平均21.86兆帕)得到,其次是树脂粘结剂Rely x ARC(平均12.95兆帕)、Fuji I(平均6.89兆帕)和Rely x Temp NE(平均4.71兆帕)。对结果进行方差分析(ANOVA)和学生t检验。
粘结剂在拉伸强度方面存在差异,磷酸锌水门汀(Cimento LS)记录的粘结水平最高,不含丁香酚的氧化锌水门汀(Rely x Temp NE)最低。