Frequency-tunable toughening in a polymer-metal-ceramic stack using an interfacial molecular nanolayer

The toughening of layered composite materials during cyclic loading remains poorly understood. Here, the authors introduce an interfacial nanolayer to a polymer-metal-ceramic stack to triple the fracture energy during cyclic loading via nanolayer-induced interfacial bond strengthening and load trans...

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Autores principales: Matthew Kwan, Muriel Braccini, Michael W. Lane, Ganpati Ramanath
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2018
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Acceso en línea:https://doaj.org/article/64bb3fb9705a4f7b9411ad269b82822d
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Sumario:The toughening of layered composite materials during cyclic loading remains poorly understood. Here, the authors introduce an interfacial nanolayer to a polymer-metal-ceramic stack to triple the fracture energy during cyclic loading via nanolayer-induced interfacial bond strengthening and load transfer to the polymer layer.