Relaxometric Study of Secondary Transitions in Aromatic Polymers

Abstract: An accurate description of minor transitions occurring at low temperatures in aromatic polymers can be obtained by a combination of relaxometric methods. In each technique, suitable contrast agents will be chosen, the most suitable for each detection. In this paper, the method will be applied to SAN (styrene-acrylonitrile) copolymers. Oxygen can be selectively absorbed on aromatic polymers. The selective absorption of paramagnetic oxygen causes numerous effects well observable by the 1 H NMR relaxometric metho… Show more

“…Spin−lattice relaxation times, T 1 ,28d were measured with the aperiodic saturation recovery sequence according to a previously published procedure . Because in all cases T 1 values were found to be shorter than 350 ms, a recycle delay of 2 s was always used.…”

“…Analysis of NMR Relaxometric Data. Saturation recovery data were calculated as previously described . The echo decays obtained applying the CPMG sequence were treated as multiexponential decays: where C 0 is the offset value, W i is the spin density of the i th component, and T 2 i is the spin−spin relaxation time of the i th component.…”

In Situ and Frontal Polymerization for the Consolidation of Porous Stones:  A Unilateral NMR and Magnetic Resonance Imaging Study

“…Spin−lattice relaxation times, T 1 ,28d were measured with the aperiodic saturation recovery sequence according to a previously published procedure . Because in all cases T 1 values were found to be shorter than 350 ms, a recycle delay of 2 s was always used.…”

“…Analysis of NMR Relaxometric Data. Saturation recovery data were calculated as previously described . The echo decays obtained applying the CPMG sequence were treated as multiexponential decays: where C 0 is the offset value, W i is the spin density of the i th component, and T 2 i is the spin−spin relaxation time of the i th component.…”

In Situ and Frontal Polymerization for the Consolidation of Porous Stones:  A Unilateral NMR and Magnetic Resonance Imaging Study

“…T 1 spin-lattice relaxation times were measured with the Aperiodic Saturation Recovery [12,13] sequence. This sequence consists of 15 908 pulses.…”

NMR and calorimetric investigation of water in a superabsorbing crosslinked network based on cellulose derivatives

High temperature thermal degradation of cellulose in air studied using FTIR and 1H and 13C solid-state NMR