Mechanical behavior investigation of fused deposition modeling joints by using different bonding geometry with variable adhesive thickness

Purpose Adhesively bonded joints are used in many fields, especially in the automotive, marine, aviation, defense and outdoor industries. Adhesive bonding offers advantages over traditional mechanical methods, including the ability to join diverse materials, even load distribution and efficient ther...

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Bibliographic Details
Published in:Rapid prototyping journal 2024-02, Vol.30 (3), p.547-554
Main Authors: Kemiklioğlu, Uğur, Demir, Sermet, Yüksel, Caner
Format: Article
Language:English
Subjects:
3-D printers
Adhesive bonding
Adhesive strength
Bond strength
Bonded joints
Bonding strength
Brittleness
Composite materials
Defense industry
Design
Ductile-brittle transition
Electrical insulation
Elongated structure
Flat surfaces
Fused deposition modeling
Geometry
Lap joints
Load distribution (forces)
Manufacturing
Mechanical properties
Polyethylene terephthalate
Polylactic acid
Rapid prototyping
Shear strength
Stress concentration
Tensile tests
Thermoplastic composites
Thickness
Three dimensional printing
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Summary:Purpose Adhesively bonded joints are used in many fields, especially in the automotive, marine, aviation, defense and outdoor industries. Adhesive bonding offers advantages over traditional mechanical methods, including the ability to join diverse materials, even load distribution and efficient thermal-electrical insulation. This study aims to investigate the mechanical properties of adhesively bonded joints, focusing on adherends produced with auxetic and flat surfaces adhered with varying adhesive thicknesses. Design/methodology/approach The research uses three-dimensional (3D)-printed materials, polyethylene terephthalate glycol and polylactic acid, and two adhesive types with ductile and brittle properties for single lap joints, analyzing their mechanical performance through tensile testing. The adhesion region of one of these adherends was formed with a flat surface and the other with an auxetic surface. Adhesively bonded joints were produced with 0.2, 0.3 and 0.4 mm bonding thickness. Findings Results reveal that auxetic adherends exhibit higher strength compared to flat surfaces. Interestingly, the strength of ductile adhesives in auxetic bonded joints increases with adhesive thickness, while brittle adhesive strength decreases with thicker auxetic bonds. Moreover, the auxetic structure displays reduced elongation under comparable force. Originality/value The findings emphasize the intricate interplay between adhesive type, bonded surface configuration of adherend and bonding thickness, crucial for understanding the mechanical behavior of adhesively bonded joints in the context of 3D-printed materials.
ISSN:1355-2546
1758-7670
1355-2546
DOI:10.1108/RPJ-10-2023-0358