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Neutron scattering from a series of compatible polymer blends: Significance of the Flory χ F parameter

1987; American Institute of Physics; Volume: 87; Issue: 10 Linguagem: Inglês

10.1063/1.453489

1520-9032

M. G. Brereton, E. W. Fischer, Ch. Herkt-Maetzky, Kell Mortensen,

Material Dynamics and Properties

In polymer blends the Flory χF parameter, describing the short range interactions between chain segments, is frequently represented by a structureless point-like interaction. However, in the mean field approximation, the influence of this parameter is directly enhanced by the degree of polymerization of the chains. This large enhancement is also effective with regard to the short range spatial structure of χF(r) and makes it possible to detect these structural details from a small angle neutron scattering experiment. We present a new way of representing the neutron data so as to explicitly determine these details and we demonstrate the method for the system polytetramethyl carbonate/deuterated polystyrene. The temperature dependence displayed by this system appears to be anomalous within the mean field approximation. However, we show that it can be successfully interpreted in terms of a structural model for χF(r) which consists of spatially separated positive and negative contributions within a 1–10 Å range. This form is supported by examining the relation of χF to the pseudopotential interactions between the segments. In the experimental part of this work we also compare our model with SANS data from two other systems (a) polyvinylmethyl ether/deuterated polystyrene, and (b) polyparamethyl styrene/deuterated polystyrene. The last two show a ‘‘normal’’ behavior and are consistent with a relatively structureless χF parameter.