Nano-technological developments, which have made significant progress in recent years, have significant impact on the science of adhesives. Therefore, in our study, the static and fatigue strengths of single-lap joints (SLJs) incorporating nanoparticles were compared to those without nanoparticles. Steel plates were used in the adhesive joints. The results revealed that average damage load increased significantly in nanoparticle-reinforced adhesive joints. The highest damage load was obtained with 4 wt% nano-Al₂O₃ in epoxy adhesive. As the average damage load increased, the locus of damage changed from interfacial to the mixture of interfacial and cohesive. Also, fatigue strengths of the joints increased when the adhesive joint had nano-Al₂O₃ and nano-SiO₂, and decreased when the adhesive joint had nano-TiO₂.

近年来，纳米技术的发展取得了重大进展，对粘合剂科学产生了重大影响。因此，在我们的研究中，将掺有纳米颗粒的单膝关节（SLJ）的静态强度和疲劳强度与不含纳米颗粒的单膝关节进行了比较。粘合接头中使用钢板。结果表明，纳米颗粒增强的胶粘接头的平均损伤负荷显着增加。在环氧胶粘剂中使用4 wt％的纳米Al ₂ O ₃可获得最高的破坏负荷。随着平均破坏负荷的增加，破坏的位置从界面变为界面和内聚的混合。而且，当粘合剂接头具有纳米Al ₂ O ₃时，接头的疲劳强度增加。和纳米SiO ₂，并且当粘合剂接头具有纳米TiO _2时减少。