用有限元分析评估厚度梯度对横向剪切载荷作用下薄涂层环氧树脂/硅树脂界面剪切应力分布的影响

IF 2.9 4区 材料科学 Q2 ENGINEERING, CHEMICAL
Melissa M. Gibbons, Stephen Mcneela, J. Kohl
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引用次数: 0

摘要

摘要低表面能材料被用作污垢释放涂层(FRCs),以减少去除生物污垢所需的力。先前的实验观察了环氧树脂螺柱(假藤壶)从具有厚度梯度的有机硅涂层中的释放行为。螺柱在从厚到薄和从薄到厚的方向上横向加载,并且最终的剥离总是从涂层的薄侧向厚侧进行。然而,拆除所需的临界横向力的趋势并不明显。在这项研究中,创建了有限元模型(FEM),以确定与硅涂层结合的环氧双头螺栓界面处的峰值剪切应力,该涂层具有响应横向载荷的厚度梯度。测定了平均涂层厚度、涂层厚度梯度和横向载荷方向的影响。在给定的平均涂层厚度下,增加厚度梯度在界面处产生更高的峰值剪切应力,这将降低去除环氧树脂螺柱所需的临界力(即,将提高FRC的性能)。厚度梯度增加的影响随着平均涂层厚度的增加而减弱。因此,具有大厚度梯度的适度薄的涂层对于在横向载荷下的FRC性能将是最佳的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessing the effect of a thickness gradient on the shear stress profile at the epoxy/silicone interface of thin coatings subjected to transverse shear loads with finite element analyses
ABSTRACT Low surface energy materials are used as foul-release coatings (FRCs) to reduce the forces required to remove biofouling. Previous experiments observed the release behavior of epoxy studs (pseudobarnacles) from silicone coatings with a thickness gradient. The studs were loaded transversely in thick-to-thin and thin-to-thick directions, and the final decohesion always proceeded from the thin to the thick side of the coating. However, trends in the critical transverse forces required for removal were not apparent. In this study, finite element models (FEMs) were created to determine the peak shear stress at the interface of an epoxy stud bonded to a silicone coating with a thickness gradient in response to a transverse load. The effects of the average coating thickness, the thickness gradient of the coating, and the transverse loading direction were determined. At a given average coating thickness, increasing the thickness gradient produced higher peak shear stresses at the interface, which would reduce the critical force required to remove the epoxy stud (i.e., would improve the performance of the FRC). The influence of the increased thickness gradient waned as the average coating thickness increased. Therefore, moderately thin coatings with large thickness gradients would be optimal for FRC performance under transverse loading.
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来源期刊
Journal of Adhesion
Journal of Adhesion 工程技术-材料科学:综合
CiteScore
5.30
自引率
9.10%
发文量
55
审稿时长
1 months
期刊介绍: The Journal of Adhesion is dedicated to perpetuating understanding of the phenomenon of adhesion and its practical applications. The art of adhesion is maturing into a science that requires a broad, coordinated interdisciplinary effort to help illuminate its complex nature and numerous manifestations.
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