Add to ORKGA classical problem in polymer physics is the mixing free energy of polymer binary blends.Flory and Huggins have proposed a famous formula191607-161
This paper describes a study of thermodynamic interactions in binary blends of A_yB_(1-y), copolymer...
SIGLEAvailable from British Library Document Supply Centre-DSC:DXN030367 / BLDSC - British Library D...
Liquid–liquid phase separation processes are currently used as a route to prepare polymeric porous s...
ABSTRACT: Given the intrinsic relation between phase behavior and performance in applications involv...
For the flexible polymer molecule the concepts of two concentrations, namely, segmental and molecula...
We extended the previous lattice model for polymer solution systems to binary polymer blend systems....
The Flory–Huggins χ parameter describes the excess free energy of mixing and governs phase behavior ...
We have developed a new Flory-Huggins model by adding a specific interaction parameter derived from ...
A theoretical model has been developed to advance the study of the thermodynamics of highly concentr...
The ability to model the packing of polymers in melts and blends is important in many polymer applic...
A polymer blend is a mixture of at least two macromolecular substances, polymers or copolymers, in w...
A new method has been developed to determine the probability of miscibility in binary polymer blends...
A thermodynamically self-consistent theory has been developed to establish binary phase diagrams for...
Flory-Huggins theory is the main basis of polymer solution and blend thermodynamics. A key piece of ...
A statistical thermodynamics theory of polydisperse polymer blends based on a lattice model descript...
This paper describes a study of thermodynamic interactions in binary blends of A_yB_(1-y), copolymer...
SIGLEAvailable from British Library Document Supply Centre-DSC:DXN030367 / BLDSC - British Library D...
Liquid–liquid phase separation processes are currently used as a route to prepare polymeric porous s...
ABSTRACT: Given the intrinsic relation between phase behavior and performance in applications involv...
For the flexible polymer molecule the concepts of two concentrations, namely, segmental and molecula...
We extended the previous lattice model for polymer solution systems to binary polymer blend systems....
The Flory–Huggins χ parameter describes the excess free energy of mixing and governs phase behavior ...
We have developed a new Flory-Huggins model by adding a specific interaction parameter derived from ...
A theoretical model has been developed to advance the study of the thermodynamics of highly concentr...
The ability to model the packing of polymers in melts and blends is important in many polymer applic...
A polymer blend is a mixture of at least two macromolecular substances, polymers or copolymers, in w...
A new method has been developed to determine the probability of miscibility in binary polymer blends...
A thermodynamically self-consistent theory has been developed to establish binary phase diagrams for...
Flory-Huggins theory is the main basis of polymer solution and blend thermodynamics. A key piece of ...
A statistical thermodynamics theory of polydisperse polymer blends based on a lattice model descript...
This paper describes a study of thermodynamic interactions in binary blends of A_yB_(1-y), copolymer...
SIGLEAvailable from British Library Document Supply Centre-DSC:DXN030367 / BLDSC - British Library D...
Liquid–liquid phase separation processes are currently used as a route to prepare polymeric porous s...