Molecular motions in polymer-diluent systems: Polystyrene-tritolylphosphate

Based on the extensive experiments of Qin et al. 9 on the effects of low molecular weight liquid-rubber diluents on the craze plasticity of polystyrene and the substantial toughening obtainable in certain ranges of temperature, strain rate, and diluent character, we examine in this article the vario

## Abstract Proton magnetic resonance spectra of nine substituted polystyrenes: polymers of __o__‐methyl, __m__‐methyl, __p__‐methyl, __p__‐chloro‐, 2,4‐dimethyl‐, α,β,β′‐trideutero‐, β‐ deutero‐, 2,6‐dimethyl‐4‐__tert__‐butyl‐, and __p‐tert__‐butylstyrene, in addition to five polystyrene samples d

An expression is derived for the melting point of a polymer when in equilibrium with a solution in which binding of low molecular weight compounds to the polymer takes place. Allowance is made for t,he possibility that the crystalline polymer itself is a complex. The argument is a pnrely thermodynam

A new mathematical model is presented for the description of certain types of diluent diffusion (migration) through diluent-polymer systems. The model describes anomalous diluent transport into a container of finite volume, and it incorporates mass transfer limitations at the polymer/extractant inte