Ideal Copolymers and the Second-Order Transitions of Synthetic Rubbers. I. Noncrystalline Copolymers

Abstract: Theoretical and practical evidence is put forward to show that copolymers can be treated like solutions of small molecules in the interpretation of packing phenomena, and that ideal volume-additivity of the repeating units in copolymers is frequently realized. On this basis equations are derived for predicting θ, the second-order transition temperature, of binary copolymers from the two second-order transition temperatures of the pure polymers and their coefficients of expansion in the glassy and rubbery state… Show more

“…Many times T g of a binary solid dispersion can also be estimated with reasonable accuracy by weight average theories like Fox or Gordon-Taylor equations with small positive or negative deviations due to drug-polymer interactions. 24,27,28 It is generally recognized that T g represents a kinetic boundary of molecular mobility. Here we assume that the width (temperature range) of this boundary is zero and thus to the right of the T g curve in Figure 1 is the equilibrium liquid where structural relaxation occurs rapidly and solubility and miscibility can be measured at equilibrium.…”

Drug–Polymer Solubility and Miscibility: Stability Consideration and Practical Challenges in Amorphous Solid Dispersion Development

“…Many times T g of a binary solid dispersion can also be estimated with reasonable accuracy by weight average theories like Fox or Gordon-Taylor equations with small positive or negative deviations due to drug-polymer interactions. 24,27,28 It is generally recognized that T g represents a kinetic boundary of molecular mobility. Here we assume that the width (temperature range) of this boundary is zero and thus to the right of the T g curve in Figure 1 is the equilibrium liquid where structural relaxation occurs rapidly and solubility and miscibility can be measured at equilibrium.…”

Drug–Polymer Solubility and Miscibility: Stability Consideration and Practical Challenges in Amorphous Solid Dispersion Development

“…4. According to the Gordon Taylor equation (59,60), the fraction of high T g material may be determined to achieve a reasonable composite T g . Also, removal of excess polymer (including low T g material) in the final powder by filtration is beneficial for the storage stability of amorphous nanoparticles.…”

Flocculated Amorphous Nanoparticles for Highly Supersaturated Solutions

“…The constant K is calculated from the ratio of the density of each component (r) and the T g of the two components. 24,25…”

Influence of Different Polymers on the Crystallization Tendency of Molecularly Dispersed Amorphous Felodipine