Comparative fracture surface analysis of adhesively bonded dissimilar lap joints: Nanosilica effect

Dizaji, Shahram A.; Khabaz‐Aghdam, Ata; Kandemir, Ayşe Çağıl

doi:10.1002/pc.28728

Polymer Composites

2024

DOI: 10.1002/pc.28728

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Comparative fracture surface analysis of adhesively bonded dissimilar lap joints: Nanosilica effect

Shahram A. Dizaji,

Ata Khabaz‐Aghdam,

Ayşe Çağıl Kandemir

Abstract: This research presents a comparative analysis of the fracture surfaces of adhesively bonded dissimilar single lap joints (DSLJs) and investigates the effect of nanosilica (NS) additives on their fracture behavior and performance. The study focuses on DSLJs composed of aluminum (Al), stainless steel (SS), copper (Cu), and carbon fiber reinforced polymer (CFRP) adherends bonded with an epoxy adhesive. The fracture surface of DSLJs is further analyzed by introducing two parameters: fractional total fracture area … Show more

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Cited by 2 publications

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Functionally Graded Impact Attenuator Using Bonded Construction

dos Reis,

Carbas,

Marques

et al. 2024

Applied Research

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Automotive collisions are one of the major causes of death in the European Union, especially in childhood and adolescence. However, improvements in vehicle safety cannot be achieved only by increasing the size and dimensions of the structures, as this demands more materials and more costly manufacturing processes, which leads to an increased resource expenditure and lowered sustainability. Moreover, the increase of the structure size raises the vehicle's weight, leading to added fuel consumption, which cannot be accepted considering modern environmental regulations. To solve these issues, the application of bonded joints using the combination of several adherends materials, such as steel and aluminium alloys and fibber‐reinforced polymers with crash‐resistant adhesives presents itself as a novel solution, allowing to attain enhanced joint strength, energy absorption and weight reduction. The present works introduce a novel concept of an impact attenuator using bonded, geometrically optimized using the concept of functionally graded adherends to maximize energy absorption by ensuring that a load‐bearing path is kept during impact, converting the impact energy into the plastic deformation of panels with variable mechanical properties, tailored to withstand specific load cases, fulfilling a gap in the literature regarding impact absorption devices that combines graded materials and bonded construction. The results obtained present an increase in the energy absorption values of the graded impact attenuators above 200% when compared to the homogenous materials.

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Functionally Graded Impact Attenuator Using Bonded Construction

dos Reis,

Carbas,

Marques

et al. 2024

Applied Research

View full text Add to dashboard Cite

show abstract

Models analyzing the response of the adhesive joint between FRP and concrete: a comparative analysis

Zhelyazov

2024

Discov Mechanical Engineering

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Comparative fracture surface analysis of adhesively bonded dissimilar lap joints: Nanosilica effect

Cited by 2 publications

References 46 publications

Functionally Graded Impact Attenuator Using Bonded Construction

Functionally Graded Impact Attenuator Using Bonded Construction

Models analyzing the response of the adhesive joint between FRP and concrete: a comparative analysis

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