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Effect of Metal Surface Topography on the Interlaminar Shear and Tensile Strength of Aluminum/Polyamide 6 Polymer-Metal-Hybrids

机译：金属表面形貌对铝/聚酰胺6聚合物-金属杂化物的层间剪切和拉伸强度的影响

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摘要

Mechanical interlocking has been proven to be an effective bonding mechanism for dissimilar material groups like polymers and metals. Therefore, this contribution assesses several surface pretreatments for the metallic adherent. Blasting, etching, combined blasting and etching, thermal spraying, and laser structuring processes are investigated with regard to the achievable interlaminar strength and the corresponding surface roughness parameters. The experiments are carried out on EN AW-6082/polyamide 6 polymer-metal-hybrids, utilizing a novel butt-bonded hollow cylinder specimen geometry for determining the shear and tensile strength. The experimental results indicate that the surface roughness slope has a major impact on the interlaminar strength. A laser-generated pin structure is found to provide the best mechanical performance as well as the highest surface slope of all investigated structuring methods.

机译：机械互锁已被证明是一种有效的粘合机制，适用于不同的材料组，例如聚合物和金属。因此，该贡献评估了金属粘附剂的几种表面预处理。关于可达到的层间强度和相应的表面粗糙度参数，对喷砂，蚀刻，喷砂和蚀刻相结合，热喷涂和激光结构化工艺进行了研究。实验是在EN AW-6082 /聚酰胺6聚合物-金属杂化物上进行的，利用新颖的对接中空圆柱试样几何形状确定抗剪强度和拉伸强度。实验结果表明，表面粗糙度对层间强度有重要影响。发现在所有研究的结构化方法中，激光产生的销钉结构可提供最佳的机械性能以及最高的表面斜率。

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期刊名称 Materials
作者
Erik Saborowski; Axel Dittes; Philipp Steinert; Thomas Lindner; Ingolf Scharf; Andreas Schubert; Thomas Lampke;
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作者单位

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年(卷),期 2019(12),18
年度 2019
页码 2963
总页数 16
原文格式 PDF
正文语种
中图分类外科学;
关键词
polymer-metal-hybrid surface pretreatment mechanical interlocking roughness evaluation interlaminar shear strength interlaminar tensile strength;

机译：聚合物-金属混合材料;表面预处理;机械互锁;粗糙度评估;层间剪切强度;层间拉伸强度;

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3. The effect of moisture on the tensile and interlaminar shear strengths of glass or carbon fiber reinforced PEI [J] . Vina J., Arguelles A., Vina I., Journal of Materials Science Letters . 2000,第7期

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Effect of Metal Surface Topography on the Interlaminar Shear and Tensile Strength of Aluminum/Polyamide 6 Polymer-Metal-Hybrids

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