Theoretical and finite-element investigation of the mechanical response of spinodal structures
Read, D.J. Teixeira, P.I. Duckett, R.A. Sweeney, John McLeish, T.C.B.
Read, D.J.
Teixeira, P.I.
Duckett, R.A.
Sweeney, John
McLeish, T.C.B.
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2002
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Abstract
In recent years there have been major advances in our understanding of the mechanisms of phase separation in polymer and copolymer blends, to the extent that good control of phase-separated morphology is a real possibility. Many groups are studying the computational simulation of polymer phase separation. In the light of this, we are exploring methods which will give insight into the mechanical response of multiphase polymers. We present preliminary results from a process which allows the production of a two-dimensional finite-element mesh from the contouring of simulated composition data. We examine the stretching of two-phase structures obtained from a simulation of linear Cahn-Hilliard spinodal phase separation. In the simulations, we assume one phase to be hard, and the other soft, such that the shear modulus ratio ... is large (... ). We indicate the effect of varying composition on the material modulus and on the distribution of strains through the stretched material. We also examine in some detail the symmetric structures obtained at 50% composition, in which both phases are at a percolation threshold. Inspired by simulation results for the deformation of these structures, we construct a "scaling" theory, which reproduces the main features of the deformation. Of particular interest is the emergence of a lengthscale, below which the deformation is non-affine. This length is proportional to ... , and hence is still quite small for all reasonable values of this ratio. The same theory predicts that the effective composite modulus scales also as ..., which is supported by the simulations.
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Read, D.J., Teixeira, P.I., Duckett, R.A., Sweeney, J. and McLeish, T.C.B. (2002). Theoretical and finite-element investigation of the mechanical response of spinodal structures. The European Physical Journal E - Soft Matter and Biological Physics. Vol. 8, No. 1, pp. 15-31.
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