A Study on the Bond Strength of Plastic–Metal Direct Bonds Using Friction Press Joining

• Main Authors: Stefan P. Meyer, Maren T. Herold, Jan B. Habedank, Michael F. Zaeh
• Format: Article
• Language: English
• Published: MDPI AG 2021-04-01
• Series: Metals
• Subjects: friction press joining; polymer metal joining; hybrid bonds; adhesive bonding; benchmark study; friction lap welding
• Online Access: https://www.mdpi.com/2075-4701/11/4/660

Friction press joining (FPJ) is an innovative joining process for bonding plastic components and metal sheets without additives in an overlap configuration. This paper focuses on the resulting bond strength. Tensile tests showed that the direct bonds produced by FPJ have either an equivalent or a higher bond strength compared to adhesive bonds. For the material combination of HD-PE and EN AW-6082-T6, an equivalent bond strength was achieved. In contrast, for the material combinations PA6-GF30 with EN AW-6082-T6 and PPS-CF with EN AW-2024-T3, higher tensile shear strengths were achieved via the FPJ technology. In addition to the technical considerations, this paper presents an evaluation of the technological maturity of FPJ. It was found that the basics of the technology are already well developed, and prototypes for showing the applicability have already been manufactured. The last part of this paper deals with the classification of FPJ into the standard for manufacturing processes, according to DIN 8593. The authors suggest a categorization into Activation bonding (item 4.8.1.3). These investigations show the high technical potential of FPJ for joining plastic components with metals.