Effect of contact load upon attrition-corrosion wear behavior of bio-composite materials: In vitro off-axis sliding contact-chewing simulation

E. Yilmaz
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引用次数: 3

Abstract

Background: In recent years, the use of composite materials as biomaterials has been increasing in dentistry. It is important to perform in vitro experiments of biomaterials before living tissue. Aim: The purpose of this work was to examine the effect of contact load upon attrition-corrosion wear behavior of bio-composite materials: in vitro off-axis sliding contact chewing simulation. Material and Method: In this study, 2 mm × 12 mm (weight × diameter) cylindrical test specimens were prepared from Filtek Supreme and Clearfil AP-X bio-composite materials with different filler structure. The surface roughness and Vicker's Hardness values of the bio-composites were measured before the wear test procedures. Then, the test specimens were subjected to off-sliding abrasion test procedures under different mechanical loads in artificial saliva and citric acid medium. Wear volume loss of bio-composite materials was determined after wear test procedures using the three-dimensional noncontact profilometer. Results: As the mechanical loading increased, the loss of wear volume in both composite materials increased irrespective of test medium. However, this increase in wear volume loss in test specimens was more pronounced in the citric acid environment. Conclusion: As a result of, the organic matrix structure (such as Ba glass particle) of the composite material contributes to more volume loss in corrosive environment.
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接触载荷对生物复合材料摩擦-腐蚀磨损行为的影响:离轴滑动接触-咀嚼模拟
背景:近年来,复合材料作为生物材料在牙科领域的应用越来越广泛。在活体组织之前进行生物材料的体外实验是很重要的。目的:研究接触载荷对生物复合材料摩擦腐蚀磨损行为的影响:体外离轴滑动接触咀嚼模拟。材料与方法:采用不同填充结构的Filtek Supreme和Clearfil AP-X生物复合材料制备2mm × 12mm(重量×直径)圆柱形试样。在进行磨损试验之前,测量了生物复合材料的表面粗糙度和维氏硬度值。然后对试件在人工唾液和柠檬酸介质中进行不同机械载荷下的脱滑磨损试验。在使用三维非接触式轮廓仪进行磨损试验后,确定了生物复合材料的磨损体积损失。结果:随着机械载荷的增加,两种复合材料的磨损体积损失均增加,与试验介质无关。然而,在柠檬酸环境中,试样磨损体积损失的增加更为明显。结论:复合材料的有机基体结构(如Ba玻璃颗粒)在腐蚀环境中导致了更大的体积损失。
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