Add to ORKGA mean field model for the miscibility of binary polymer systems containing random copolymers has been extended to take into account the microstructure of the respective macromolecular constituents. The resulting model has been applied to the special case of mixtures of copolymers containing identical moieties but differing in microstructure and/or composition. An example of such a system is the mixture of polyvinyl chloride and chlorinated polyethylene
A recently introduced mean field theory of phase behavior in polymer/copolymer systems is extended t...
Recently, a mean-field analysis of linear random A-B multiblock copolymer melts was introduced, taki...
A two-dimensional system consisting of a mixture of a random copolymer and a homopolymer is investig...
A mean field model for the miscibility of binary polymer systems containing random copolymers has be...
A mean field model for the miscibility of binary polymer systems containing random copolymers has be...
Previous theories describing the phase behavior of copolymer blends have ignored the sequence distri...
The effects of the chain structure and the intramolecular interaction energy of an A/B copolymer on ...
The miscibility and structure of A-B copolymer/C homopolymer blends with special interactions were s...
A number of quasi-binary homopolymer blends have been investigated with regard to their miscibility....
A recently introduced mean field theory of phase behavior in polymer/copolymer systems is extended t...
Miscibility in blends of random copolymers (A.,B1-:r),.,_ and (CyB1-y)111 can conveniently be displa...
Recently, a mean-field analysis of linear random A-B multiblock copolymer melts was introduced, taki...
A recently introduced mean field theory of phase behavior in polymer/copolymer systems is extended t...
Recently, a mean-field analysis of linear random A-B multiblock copolymer melts was introduced, taki...
A two-dimensional system consisting of a mixture of a random copolymer and a homopolymer is investig...
A mean field model for the miscibility of binary polymer systems containing random copolymers has be...
A mean field model for the miscibility of binary polymer systems containing random copolymers has be...
Previous theories describing the phase behavior of copolymer blends have ignored the sequence distri...
The effects of the chain structure and the intramolecular interaction energy of an A/B copolymer on ...
The miscibility and structure of A-B copolymer/C homopolymer blends with special interactions were s...
A number of quasi-binary homopolymer blends have been investigated with regard to their miscibility....
A recently introduced mean field theory of phase behavior in polymer/copolymer systems is extended t...
Miscibility in blends of random copolymers (A.,B1-:r),.,_ and (CyB1-y)111 can conveniently be displa...
Recently, a mean-field analysis of linear random A-B multiblock copolymer melts was introduced, taki...
A recently introduced mean field theory of phase behavior in polymer/copolymer systems is extended t...
Recently, a mean-field analysis of linear random A-B multiblock copolymer melts was introduced, taki...
A two-dimensional system consisting of a mixture of a random copolymer and a homopolymer is investig...