Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 3 of 3
Full-Text Articles in Entire DC Network
Compatibility In Chlorinated Poly(Vinyl Chloride)/Poly(Ethylene-Co-Vinyl Acetate) Blends, William Macknight, Tomoo Shiomi, F. E. Karasz
Compatibility In Chlorinated Poly(Vinyl Chloride)/Poly(Ethylene-Co-Vinyl Acetate) Blends, William Macknight, Tomoo Shiomi, F. E. Karasz
William MacKnight
No abstract provided.
Classifications Of Experimental Methods On Polymer Compatibility, William Macknight, Saburo Akiyama
Classifications Of Experimental Methods On Polymer Compatibility, William Macknight, Saburo Akiyama
William MacKnight
No abstract provided.
Compatibility In Blends Of Two Random Copolymers Having A Common Monomer Segment, William Macknight, Tomoo Shiomi, F. E. Karasz
Compatibility In Blends Of Two Random Copolymers Having A Common Monomer Segment, William Macknight, Tomoo Shiomi, F. E. Karasz
William MacKnight
Miscibility in blends of random copolymers (A.,B1-:r),.,_ and (CyB1-y)111 can conveniently be displayed as domains in a Cartesian coordinate system in which the abscissa and ordinate represent the compositions of the respective copolymers. For the case in which the two copolymers have a common monomer unit (e.g., B) the isothermal boundary between domains of miscibility and immiscibility in a mean field treatment is determined by three segmental interaction parameters, XAB, XAC, and XBC, and the degrees of polymerization r1 and r2 of the copolymers. We have termed such representations "miscibility maps". The shape and size of the miscibility domain are …