School of Physics, Universiti Sains Malaysia, 11800, USM, Pulau Pinang, Malaysia.
School of Dental Sciences, Health Campus, Universiti Sains Malaysia, 16150 Kubang Kerian, Kelantan, Malaysia.
Mater Sci Eng C Mater Biol Appl. 2019 Jul;100:645-654. doi: 10.1016/j.msec.2019.03.034. Epub 2019 Mar 11.
Zinc oxide eugenol (ZOE) cements are generally made up of 80%-90% ZnO powder while the remaining content consists of eugenol bonding resin. ZnO structure plays a major role in the morphology and mechanical properties of ZOE. In this study, we investigated the effects of different particle sizes/shapes of ZnO particles on the surface and mechanical properties of ZOE. Three samples were prepared namely ZnO-Ax, ZnO-B and ZnO-K. The crystallite sizes calculated from XRD were 37.76 nm (ZnO-Ax), 39.46 nm (ZnO-B) and 42.20 nm (ZnO-K) while the average particle sizes obtained by DLS were 21.11nm (ZnO-Ax), 56.73 nm (ZnO-B) and 2012 nm (ZnO-K). Results revealed that the compressive strengths of ZOE-Ax and ZOE-B were improved by 87.92% and 57.16%, respectively, relative to that of commercial ZOE-K. Vickers hardness test demonstrated that the hardness of ZOE-Ax and ZOE-B also increased by 74.9% and 31.1%, respectively. The ZnO-Ax nanostructure possessed a small average particle size (21.11 nm), a homogeneous size distribution (DLS) and an oxygen-rich surface (from EDS and elemental mapping). Meanwhile, ZnO-B exhibited a slightly larger average particle size of 56.73 nm compared with that of other samples. Sample ZnO-Ax demonstrated the highest compressive strength which was attributed to its large particle surface area (21.11 nm particle size) that provided a large contact area and greater interfacial (or interlock) bonding capability if compared to that of ZnO-K sample (2012 nm particle size).
氧化锌丁香酚(ZOE)水门汀一般由 80%-90%的氧化锌粉末组成,其余的则由丁香酚结合树脂组成。氧化锌的结构在 ZOE 的形态和机械性能中起着重要作用。在这项研究中,我们研究了不同粒径/形状的氧化锌颗粒对 ZOE 表面和机械性能的影响。制备了三种样品,分别为 ZnO-Ax、ZnO-B 和 ZnO-K。从 XRD 计算出的晶粒尺寸分别为 37.76nm(ZnO-Ax)、39.46nm(ZnO-B)和 42.20nm(ZnO-K),而通过 DLS 获得的平均粒径分别为 21.11nm(ZnO-Ax)、56.73nm(ZnO-B)和 2012nm(ZnO-K)。结果表明,与商业 ZOE-K 相比,ZOE-Ax 和 ZOE-B 的抗压强度分别提高了 87.92%和 57.16%。维氏硬度测试表明,ZOE-Ax 和 ZOE-B 的硬度也分别提高了 74.9%和 31.1%。ZnO-Ax 纳米结构具有较小的平均粒径(21.11nm)、均匀的粒径分布(DLS)和富含氧的表面(来自 EDS 和元素映射)。同时,ZnO-B 的平均粒径略大于其他样品,为 56.73nm。样品 ZnO-Ax 表现出最高的抗压强度,这归因于其较大的颗粒表面积(21.11nm 的粒径),与 ZnO-K 样品(2012nm 的粒径)相比,提供了更大的接触面积和更强的界面(或互锁)结合能力。
