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Communication Dans Un Congrès Année : 2019

Mimic of collagens properties by creating sacrificial bonds on synthetic polymer

Résumé

Sacrificial bonds and hidden length confer on hard and dry natural materials, high strength, stiffness, toughness, and selfrecovery of its function in response to successive mechanical stimulation at the molecular scale. This type of links is involved in complex hierarchical structures, such as bone, tendons, ligament, nacre, mussels… These natural materials have high toughness. It has excellent mechanical properties as well as remarkable self-regenerative properties, like self-healing behavior 1,2, which arises in part from secondary sacrificial bonds between chain segments in coiled organic phase. In the last ten years there have been many important advances in the development of self healing polymers 3-11 and polymer Nanocomposites. Biomimetics12-16 aims to reproduce some of the properties of natural structural materials, using rationally engineered and scalable components and processes. The understanding of the functioning and the principle of the forming mechanism of sacrificial bond (Sb) is of significant fundamental interest. Indeed, this phenomenon governing interactions at the molecular level of different natural materials (bones, skin, tendons, abalone, toils of Spider, pearl ....) Is not yet fully elucidated well. In this work we looking for mimic of the collagen fiber with creating Sb on individuals poly(Acid-Acrylic) (PAA) chains. We present the results of dynamic force spectroscopy experiments conducted on individuals PAA chains, which were Immersed in a physiological buffer. Through these experiences, the hidden length and the strength of the rupture of Sbs Were Measured, in function of loading rates. A clear scheme of formation of Sbs was revealed, and The energy released by their rupture was quantified. These results made it possible to understand the role played by these bonds in the mechanical properties at the molecular level.
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Dates et versions

hal-02968912 , version 1 (16-10-2020)

Identifiants

  • HAL Id : hal-02968912 , version 1

Citer

Sadia Radji, Stéphane Cuenot, Anne-Sophie Duwez. Mimic of collagens properties by creating sacrificial bonds on synthetic polymer. 6th International Conference on Material Science and Nanotechnology, Jul 2019, Rome, Italy. ⟨hal-02968912⟩
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