A study on the effect of surface roughness on the strength of single lap joints

Proceedings of 3rd International Conference on Adhesive Joining and Coating Technology in Electronics Manufacturing 1998 (Cat. No.98EX180) Pub Date : 1998-09-28 DOI:10.1109/ADHES.1998.742054

R. Gomatam, Erol Sancaktar

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引用次数: 1

Abstract

Summary form only given. Many surface treatments to improve adhesion roughen the surface. Treatments such as abrasion and etching remove the weak boundary layer and improve wetting behavior. Liquid adhesives that are spread during application do not ensure removal of air from cavities on the surface. Adhesive penetration into substrate pores is influenced by capillary forces and retarded by viscosity. Surface roughness can affect adhesive spreading and contact angle. In order to investigate aspects of surface roughness, surface profile, resin viscosity, and surface morphology, experiments were conducted using two steels (1018 cold rolled and hot rolled weld steel). Four surface modifications were performed on these samples by grit blasting at 552 kPa and 276 kPa from a distance of 25.4 mm and chemical etching using chromic acid for 2 mins and 10 mins. Crossed patterns were also obtained by an etch technique which involved changing the metal sample dip angle into the etch solution. Two resins were used to assess viscosity effects in interaction with different surface topographies. Contact angles were measured on all surfaces using these resins. Metal specimens were bonded under pressure and oven cured at 121/spl deg/C for 2 hours. To gain insight into the effect of surface topography, SEM was used to observe the modified surfaces. Average roughness was measured using a profilometer and surface profiles were obtained for all samples. The strength and displacement values were measured at crosshead speeds of 1 and 100 mm/min, to assess the interrelation between failure mechanisms and joint displacements, surface topography and resin viscosity.

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表面粗糙度对单搭接接头强度影响的研究

只提供摘要形式。许多表面处理，以提高附着力粗糙的表面。磨蚀和蚀刻等处理可以去除弱边界层并改善润湿行为。在应用过程中散布的液体粘合剂不能确保从表面空腔中去除空气。胶粘剂渗透到基材孔隙受到毛细力的影响，并受到粘度的阻碍。表面粗糙度会影响粘合剂的扩散和接触角。为了研究表面粗糙度、表面轮廓、树脂粘度和表面形貌，使用两种钢(1018冷轧和热轧焊接钢)进行了实验。采用552 kPa和276 kPa距25.4 mm的喷砂和2 min和10 min的铬酸化学腐蚀对样品进行了4次表面改性。通过改变金属样品在蚀刻溶液中的倾角，也可以得到交叉图案。两种树脂被用来评估与不同表面形貌相互作用的粘度效应。使用这些树脂测量了所有表面的接触角。金属试样在压力下粘结，并在121℃下烘箱固化2小时。为了进一步了解表面形貌的影响，利用扫描电镜对改性后的表面进行了观察。使用轮廓仪测量平均粗糙度，并获得所有样品的表面轮廓。在十字头速度为1和100 mm/min时测量强度和位移值，以评估破坏机制与关节位移、表面形貌和树脂粘度之间的相互关系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of 3rd International Conference on Adhesive Joining and Coating Technology in Electronics Manufacturing 1998 (Cat. No.98EX180)

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