Artículos de revistas
Viscoelastic response of linear defects trapped in polymer networks
Fecha
2014-12-31Registro en:
Roth, Leandro E.; Agudelo, Diana Carolina; Ressia, Jorge Aníbal; Gomez, Leopoldo Raimundo; Valles, Enrique Marcelo; et al.; Viscoelastic response of linear defects trapped in polymer networks; Elsevier; European Polymer Journal; 64; 31-12-2014; 1-9
0014-3057
CONICET Digital
CONICET
Autor
Roth, Leandro E.
Agudelo, Diana Carolina
Ressia, Jorge Aníbal
Gomez, Leopoldo Raimundo
Valles, Enrique Marcelo
Villar, Marcelo Armando
Vega, Daniel Alberto
Resumen
We analyze the dynamic response of end-linked poly(dimethylsiloxane) networks containing entangled unattached guest linear polymers. Upon increasing the content of unattached guest polymers there is an increasing dissipation and a reduction in the network elasticity. It was found that the width of the relaxation spectrum is nearly insensitive to the content of guest chains, indicating that the network structure is not affected by the presence of these defects and that the effective number of entanglements associated to guest chains is independent of the equilibrium elastic modulus of the networks. The inhibition of the constraints release mechanism for molecules trapped in polymer networks have enormous consequences on the dynamic response, producing a dramatic slowing down in the relaxational dynamics of defects. The presence of different structures of defects in polymer networks is physically unavoidable, even under optimum reaction conditions. Here we found that the slow dynamics of soluble branched structures or dangling molecules can easily hide the contribution of linear unattached molecules.