Adaptive Composite Materials: Bionics Principles, Abnormal Elasticity, Moving Interfaces

Serge, Shilko

doi:10.5772/18190

Cited by 2 publications

(1 citation statement)

References 19 publications

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“…To realize high strength of the composites under consideration, it is necessary to create a certain gradient of the elastic characteristics of the intermediate layer near the surfaces of the components, including the use of bionic principles for constructing highstrength joints [22] (e. g. by nanomodification of the intermediate layer [23]).…”

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confidence: 99%

Tensile Fracture Specificity of Unidirectional Metal-Polymer Glass-Fiber Composites With Cord Wire

Ashchepkau¹,

“Polotsk-Steklovolokno”²,

Шилько³

et al. 2020

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In this paper, the problem of increasing the strength and elastic modulus of unidirectional structural glass-fiberreinforced plastic (GFRP) is considered and the possibilities of using hybrid reinforcement based on GFRP and high-strength steel cord wire are discussed. Static tensile testing of laboratory samples of metal-glass-reinforced plastics was performed, the results of which show the significant dependence of the mechanical characteristics on the adhesion of both filler components to the binder. To realize high mechanical characteristics of the metal-glasspolymer composites under consideration, it is necessary, besides ensuring strong adhesion of filler to binder, to create a certain gradient of the elastic modulus of the intermediate layer near the surfaces of the components using bionic principles for constructing high-strength natural joints.

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confidence: 99%