Effect of Diamond-like Carbon Coating Applied by the Physical Vapor Deposition Technique on Wear of Diamond and Tungsten Carbide Dental Burs

B. Asgartooran, Z. Khamverdi, Faezeh Soury, Shiva Kavousinejad
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Abstract

Background: The methods of increasing the longevity of dental burs by improving the mechanical properties of these surfaces, can increase their longevity. This study assessed the effect of diamond-like carbon (DLC) coating applied by the physical vapor deposition (PVD) technique on wear of diamond and tungsten carbide (TC) burs. Methods: In this in vitro study, 30 diamond and 30 TC burs were evaluated in four groups, including TC burs without coating (control), TC burs with a 3.5-µm DLC coating applied by the PVD technique, diamond burs without coating (control), and diamond burs with a 3.5-µm DLC coating applied by the PVD technique. The burs were weighed by a digital scale, underwent the pin-on-disc wear test, and were weighed again. The weight loss indicated the degree of wear in each group. For qualitative assessments, the surface of the burs was inspected under a stereomicroscope at×4 and×10 magnifications before wear, halfway through the test, and after the test. Finally, the data were analyzed by two-way ANOVA (α=0.05). Results: The effect of DLC coating was significant on the wear of burs (P=0.032), but the effect of the type of bur and their interaction effect on wear were not significant (P=0.151). A significant difference existed in wear among the four groups (P < 0.001), and the wear of coated burs was significantly lower than that of non-coated burs (P=0.012). Stereomicroscopic assessments revealed some residual diamond particles, the impression of dislodged particles and the path of wear on the surface of diamond burs, and the path of wear on the surface of TC burs. Conclusions: Overall, the DLC coating of diamond and TC dental burs by the PVD technique could increase their wear resistance irrespective of the bur type.
物理气相沉积技术应用类金刚石碳涂层对金刚石和碳化钨齿刺磨损的影响
背景:通过改善牙刺表面的力学性能来延长牙刺的使用寿命,可以延长牙刺的使用寿命。研究了物理气相沉积(PVD)技术对类金刚石(DLC)涂层对金刚石和碳化钨(TC)毛刺磨损的影响。方法:在体外研究中,对30个金刚石和30个TC毛刺进行了评估,分为四组,包括无涂层的TC毛刺(对照组)、PVD技术3.5µm DLC涂层的TC毛刺、无涂层的金刚石毛刺(对照组)和PVD技术3.5µm DLC涂层的金刚石毛刺。通过数字秤对毛刺进行称重,进行销盘磨损测试,然后再次称重。体重的减少表明各组的磨损程度。为了进行定性评估,在磨损前、测试中途和测试后,在立体显微镜at×4 and×10放大镜下检查毛刺的表面。最后,对数据进行双因素方差分析(α=0.05)。结果:DLC涂层对毛刺磨损的影响显著(P=0.032),而毛刺类型及其相互作用对磨损的影响不显著(P=0.151)。四组毛刺的磨损量差异有统计学意义(P < 0.001),涂覆毛刺的磨损量显著低于未涂覆毛刺(P=0.012)。体视显微镜下观察到金刚石毛刺表面残留的金刚石颗粒、脱落颗粒的压痕和磨损路径,以及TC毛刺表面的磨损路径。结论:总的来说,PVD技术对金刚石和TC牙齿毛刺进行DLC涂层,无论其类型如何,都可以提高其耐磨性。
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