Abstract
Epoxy adhesives are widely used in various industries because of their high heat and chemical resistance, high cohesion, and minimal shrinkage. Recently, epoxy adhesives have been applied in the automotive industry as structural adhesives for lightweight vehicles. However, the brittleness of the epoxy is an obstacle for this application, since the automotive industry requires epoxy-based structural adhesives to have a high level of high-speed impact resistance. Hence, we used phenol-terminated polyurethane (PTPU) as a toughening agent for epoxy adhesives and compared the results with those that were obtained with carboxyl-terminated butadiene acrylonitrile copolymer (CTBN). The high-energy impact resistance of the epoxy adhesives was measured by the impact wedge-peel (IWP) test, and the shear strength was measured by the single lap joint test. As a result, the 20 wt % PTPU-modified epoxy adhesive showed remarkably higher total absorbed energy (25.8 J) during the IWP test and shear strength (32.3 MPa) as compared with the control epoxy adhesive (4.1 J and 20.6 MPa, respectively). In particular, the total absorbed energy of the PTPU-modified epoxy adhesive was much larger than that of the CTBN-modified epoxy adhesive (5.8 J). When more than 10 wt % PTPU was added, the modified epoxy adhesives showed stable crack growth and effectively transferred external stress to the substrate. These results were explained by changes in the glass transition temperature, crosslinking density, and morphology due to the toughening agents.
Highlights
Structural adhesives are used for structural bonding that requires high adhesion strength, elasticity, and environmental resistance
The glass transition temperature (Tg ) and crosslink density (ρ) of the cured epoxy adhesives were measured by a dynamic mechanical analyser (DMA) in order to determine the effect of the toughening agents
The Tg and storage modulus of the epoxy adhesives decreased as the phenol-terminated polyurethane (PTPU) content increased
Summary
Structural adhesives are used for structural bonding that requires high adhesion strength, elasticity, and environmental resistance. To be used as a structural adhesive for automobiles, high shear strength as well as high peel, bending, impact, and fatigue strengths are required [1]. Structural adhesives for automobiles are commonly prepared with epoxy and polyurethane [2,3]. Epoxy-based structural adhesives are the most suitable structural adhesives for fastening parts that require high-speed impact resistance, because they have high cohesive strength, low shrinkage, and high heat resistance and chemical resistance. Epoxy-based structural adhesives can provide various formulations that are suitable for bonding processes and required properties by adjusting the curing agent and Polymers 2020, 12, 1549; doi:10.3390/polym12071549 www.mdpi.com/journal/polymers
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