Aboushelib Moustafa N, Elsafi Mohamed H
Department of Dental Materials, Faculty of Dentistry, Alexandria University, Egypt.
Dental Material Research Unit, Faculty of Dentistry, Alexandria University, Egypt.
Dent Mater. 2016 Apr;32(4):529-34. doi: 10.1016/j.dental.2015.12.001. Epub 2016 Jan 4.
to evaluate influence of cyclic fatigue on two resin infiltrated ceramics and three all-ceramic crowns manufactured using CAD/CAM technology.
CAD/CAM anatomically shaped crowns were manufactured using two resin infiltrated ceramics (Lava Ultimate and Vita Enamic), two reinforced glass ceramic milling blocks ((IPS)Empress CAD and (IPS)e.max CAD) and a veneered zirconia core ((IPS)Zir CAD). (IPS)e.max CAD and (IPS)Zir CAD were milled into 0.5mm thick anatomically shaped core structure which received standardized press-on veneer ceramic. The manufactured crowns were cemented on standardized resin dies using a resin adhesive (Panavia F2.0). Initial fracture strength of half of the specimens was calculated using one cycle load to failure in a universal testing machine. The remaining crowns were subjected to 3.7 million chewing cycles (load range 50-200N at 3s interval) in a custom made pneumatic fatigue tester. Survival statistics were calculated and Weibull modulus was measured from fitted load-cycle-failure diagrams. Scanning electron microscopy was performed to fractographically analyze fractured surfaces. Data were analyzed using two way analysis of variance and Bonferroni post hoc tests (α=0.05).
Dynamic fatigue resulted in significant reduction (F=7.54, P<0.005) of the initial fracture strength of the tested specimens. Zirconia showed the highest deterioration percent (34% reduction in strength) followed by (IPS)Empress (32.2%), (IPS)e.max (27.1%) while Lava Ultimate and Vita Enamic showed the lowest percent of reduction in strength. The two types of resin infiltrated ceramics and (IPS)Empress demonstrated the highest percent of fracture incidences under the influence of fatigue (35-45% splitting). None of the tested veneered zirconia restorations were fractured during testing, however, chipping of the veneer ceramics was observed in 6 crowns. The lowest percent of failure was observed for (IPS)e.max crowns manifested as 3 cases of minor chipping in addition to two complete fracture incidences. SEM images demonstrated the internal structure of the tested materials and detected location and size of the critical crack.
The internal structure of the tested materials significantly influenced their fatigue behavior. Resin infiltrated ceramics were least influenced by fatigue while the characteristic strength of zirconia prevented core fracture but failure still occurred from the weaker veneer ceramic.
评估循环疲劳对两种树脂渗透陶瓷以及三种采用CAD/CAM技术制造的全瓷冠的影响。
使用两种树脂渗透陶瓷(Lava Ultimate和Vita Enamic)、两种增强玻璃陶瓷研磨块((IPS)Empress CAD和(IPS)e.max CAD)以及一种贴面氧化锆核((IPS)Zir CAD)制造CAD/CAM解剖形状的冠。将(IPS)e.max CAD和(IPS)Zir CAD研磨成0.5毫米厚的解剖形状的核心结构,然后进行标准化的压接贴面陶瓷。使用树脂粘结剂(Panavia F2.0)将制造好的冠粘结在标准化的树脂模具上。使用万能试验机对一半的试样施加一次循环加载直至破坏,计算其初始断裂强度。将其余的冠在定制的气动疲劳试验机中进行370万次咀嚼循环(载荷范围为50 - 200N,间隔3秒)。计算存活率统计数据,并从拟合的载荷 - 循环 - 破坏图中测量威布尔模量。进行扫描电子显微镜检查以对断裂表面进行断口分析。使用双向方差分析和Bonferroni事后检验(α = 0.05)对数据进行分析。
动态疲劳导致测试试样的初始断裂强度显著降低(F = 7.54,P < 0.005)。氧化锆的强度降低百分比最高(强度降低34%),其次是(IPS)Empress(32.2%)、(IPS)e.max(27.1%),而Lava Ultimate和Vita Enamic的强度降低百分比最低。两种树脂渗透陶瓷和(IPS)Empress在疲劳影响下的断裂发生率百分比最高(35 - 45%出现裂纹)。在测试过程中,没有一个测试的贴面氧化锆修复体发生断裂,然而,在6个冠中观察到贴面陶瓷有崩瓷现象。(IPS)e.max冠的失败百分比最低,表现为除两例完全断裂外还有3例轻微崩瓷。扫描电子显微镜图像展示了测试材料的内部结构,并检测到临界裂纹的位置和大小。
测试材料的内部结构显著影响其疲劳行为。树脂渗透陶瓷受疲劳影响最小,而氧化锆的特征强度防止了核心断裂,但仍然因较弱的贴面陶瓷而发生失败。