\u3cp\u3eA classic paradigm of soft and extensible polymer materials is the difficulty of combining reversible elasticity with high fracture toughness, in particular for moduli above 1 MPa. Our recent discovery of multiple network acrylic elastomers opened a pathway to obtain precisely such a combination. We show here that they can be seen as true molecular composites with a well–cross-linked network acting as a percolating filler embedded in an extensible matrix, so that the stress–strain curves of a family of molecular composite materials made with different volume fractions of the same cross-linked network can be renormalized into a master curve. For low volume fractions (<3%) of cross-linked network, we demonstrate with mechanolumine...
Elastic materials can deform reversibly by several times their initial size. Their low resistance to...
<p>Toughness, the measure of how much energy a material can absorb before rupture, is an important p...
Thesis (Ph. D.)--University of Rochester. Dept. of Chemical Engineering, 2011.Supramolecular polymer...
A classic paradigm of soft and extensible polymer materials is the difficulty of combining reversibl...
International audienceThe molecular level transfer of stress from a stiff percolating filler to a st...
Elastomers are widely used because of their large-strain reversible deformability. Most unfilled ela...
If an elastomeric material is subjected to sufficiently large deformations, it eventually fractures....
International audienceElastomers are widely used because of their large-strain reversible deformabil...
We investigated an innovative path to reinforce, both in toughness and stiffness, usually brittle el...
Engineering applications of soft materials, such as prosthetic ligaments, are limited by crack propa...
Multi-network elastomers are both stiff and tough by virtue of containing a pre-stretched stiff netw...
International audienceHere, the general design and properties of new multiple network elastomers wit...
The fracture of rubbery polymer networks involves a series of molecular events, beginning with confo...
International audienceMulti-network elastomers are both stiff and tough by virtue of containing a pr...
Current synthetic elastomers suffer from the well-known trade-off between toughness and stiffness. B...
Elastic materials can deform reversibly by several times their initial size. Their low resistance to...
<p>Toughness, the measure of how much energy a material can absorb before rupture, is an important p...
Thesis (Ph. D.)--University of Rochester. Dept. of Chemical Engineering, 2011.Supramolecular polymer...
A classic paradigm of soft and extensible polymer materials is the difficulty of combining reversibl...
International audienceThe molecular level transfer of stress from a stiff percolating filler to a st...
Elastomers are widely used because of their large-strain reversible deformability. Most unfilled ela...
If an elastomeric material is subjected to sufficiently large deformations, it eventually fractures....
International audienceElastomers are widely used because of their large-strain reversible deformabil...
We investigated an innovative path to reinforce, both in toughness and stiffness, usually brittle el...
Engineering applications of soft materials, such as prosthetic ligaments, are limited by crack propa...
Multi-network elastomers are both stiff and tough by virtue of containing a pre-stretched stiff netw...
International audienceHere, the general design and properties of new multiple network elastomers wit...
The fracture of rubbery polymer networks involves a series of molecular events, beginning with confo...
International audienceMulti-network elastomers are both stiff and tough by virtue of containing a pr...
Current synthetic elastomers suffer from the well-known trade-off between toughness and stiffness. B...
Elastic materials can deform reversibly by several times their initial size. Their low resistance to...
<p>Toughness, the measure of how much energy a material can absorb before rupture, is an important p...
Thesis (Ph. D.)--University of Rochester. Dept. of Chemical Engineering, 2011.Supramolecular polymer...
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