采用新的滑移铸造方法制备的新型Y-TZP和ATZ陶瓷的两体耐磨性和疲劳寿命。

J. Roulet, M. Sinhoreti, S.O.L.I.M.A.R.O.L.I.V.E.I.R.A. Pontes, M. Rocha
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摘要

基础氧化锆修复体是由预烧结块或盘磨成的,这些块或盘是用高等静压(HIP)或更简单的泥浆技术生产的。目的是对两种陶瓷,钇稳定的四方氧化锆多晶(3Y-TZP)陶瓷和氧化锆-氧化铝混合陶瓷(ATZ)进行疲劳测试和体外磨损模拟,这两种陶瓷都是使用高等静压(HIP,控制)或浆液技术生产的经典方法。材料与方法在动态万能试验机中,对10个圆盘/组进行了37℃水下阶梯式双轴循环疲劳试验。在CS-4咀嚼模拟器中,8个12 mm厚的圆柱形样品在49 N的力和0.7 mm的横向运动下,在600 k循环和4167个热循环(5-55°C)下进行了两体磨损试验。基于激光扫描表面计算体积磨损。在扫描电镜中观察两个试验的选定样品。结果在设备最大载荷(1000 N)为1527 MPa的情况下,采用HIP法制备的陶瓷试样均可存活1.2 M次循环。1.2 M循环时,ATZ试样的疲劳极限应力为946 MPa。泥浆Y-TZP试样在1.2 M循环下的疲劳极限应力为658 MPa。在600 k的循环中,所有氧化锆陶瓷都没有可测量的磨损,并且具有高度抛光的外观。白白石陶瓷拮抗剂磨损呈线性发展。用浆料和HIP工艺生产的材料没有区别。ATZ陶瓷比3Y- TZP陶瓷产生更大的磨损。结论HIP法比浆料法具有更高的疲劳强度。所有HIP陶瓷均超过了试验机的极限阈值(1527 MPa)。测试的陶瓷没有显示出任何可测量的磨损,但对白晶石增强玻璃陶瓷拮抗剂的磨损相当大。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Two-body wear resistance and fatigue survival of new Y-TZP and ATZ ceramics made with a new slip-casting method.
BACKGROUND Dental zirconium oxide restorations are milled from pre-sintered blocks or disks which are produced either with high isostatic pressure (HIP) or, simpler, a slurry technique. The objective was to perform a fatigue test and an in vitro wear simulation of two ceramics, yttria-stabilized tetragonal zirconia polycrystal (3Y-TZP) ceramic and a hybrid zirconium oxide-aluminum oxide ceramic, (ATZ) both produced either the classical way using high isostatic pressure (HIP, control) or with a slurry technique. MATERIALS AND METHODS Ten discs/group were subjected to a cyclic biaxial fatigue test using a staircase approach under water at 37 °C in a dynamic universal testing machine. The 2-body wear test was performed on eight lapped 12 mm thick cylindrical samples subjected to spherical (ø 6 mm) leucite ceramic antagonists in a CS-4 chewing simulator at 49 N force and 0.7 mm lateral movement for 600 k cycles and 4167 thermal cycles (5-55 °C). Volumetric wear was calculated based on laser-scanned surfaces. Selected samples of both tests were viewed in SEM. RESULTS All the ceramic specimens produced using the HIP method survived up to 1.2 M cycles with the maximum load of the equipment (1000 N) loading the specimens up to 1527 MPa. The fatigue limit stress at 1.2 M cycles for the Slurry ATZ samples was 946 MPa. For the Slurry Y-TZP samples the fatigue limit stress at 1.2 M cycles was 658 MPa. At 600 k cycles, all zirconium oxide ceramics showed no measurable wear and had a highly polished appearance. The leucite ceramic antagonists wear developed in a linear way. There was no difference between the materials produced with the slurry and the HIP process. ATZ ceramic produced significantly more wear than 3Y- TZP ceramic. CONCLUSIONS The HIP method provided higher fatigue strength than the Slurry manufacturing method. All HIP ceramics surpassed the limit threshold (1527 MPa) of the testing machine. The tested ceramics did not show any measurable wear but had worn the leucite reinforced glass ceramic antagonists for a considerable amount.
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