Simulation Analysis on the Compression Property of Sandwich Composite

In this study, the fracture behaviour of DCB(double cantilever beam) specimen with aluminum foam composite materials is analyzed by simulation. By comparing the analysis results with two models of 25 mm and 40 mm, the model with thickness of 25 mm is weaker than 40 mm at fatigue life and damage. Two models are unfavorable at 'SAE Transmission' in case of nonuniform fatigue load and rainflow matrices are weakest at 'SAE Bracket history'. In damage matrices, the model with 25 mm of thickness is weaker than the model with 40 mm of thickness but the model with 40 mm of thickness relative damage possibility is higher than in case of 25 mm. As two models are safest at 'SAE Transmission', the relative damage becomes the lowest value from 1.1 to 1.8 %. The mechanical property can be investigated by applying these analyses results with the real composite structure bonded with adhesive and analyzing fracture behaviour.

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Simulation Analysis on the Compression Property of Sandwich Composite

Cited by 2 publications

References 6 publications

Study on adhesively-bonded surface of tapered double cantilever specimen made of aluminum foam affected with shear force

Study on adhesively-bonded surface of tapered double cantilever specimen made of aluminum foam affected with shear force

Study on Fatigue Analysis of DCB Specimen Bonded

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