Macromolecules, Vol.28, No.25, 8535-8540, 1995
C-13 and N-15 Solid-State NMR of Copolymers of Nylon-6 and Nylon-7 - Observation of a Stable Pseudohexagonal Phase
A series of nylon copolymers were synthesized and characterized based on the even-odd A-B monomer combination caprolactam and enantholactam. The nylon 6-co-nylon 7 samples displayed physical properties which directly correlate with copolymer composition. The degrees and types of crystallinity for these materials were examined using a combination of thermal, NMR, and X-ray measurements. The homopolymers each displayed highly ordered alpha-crystallites while the copolymers possessed less-ordered domains that decreased in alpha-like characteristics down to the 1:1 copolymer, which possessed a thermodynamically stable pseudohexgonal ordered phase. The C-13 T-1 values determined for the annealed 1:1 copolymer were shorter than those of crystalline regions of annealed homopolymers. In fact, they were comparable to values observed for amorphous domains in melt-quenched nylon 6 and nylon 7 homopolymers but significantly longer than the values for a precipitated and annealed 1:1 nylon 11-co-nylon 12 sample. Annealing at temperatures ca. 10 degrees C below the DSC T-m increased the perfection of the copolymer ordered domains based on both NMR and X-ray measurements but did not convert the pseudohexagonal phase to alpha-crystallites.