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Hydration, Refinement, and Dissolution of the Crystalline Phase in Polyamide 6 Polymorphs for Ultimate Thermomechanical Properties

Milo Gardeniers, Mohanraj Mani, Ele de Boer, Daniel Hermida‐Merino, Robert Graf, Sanjay Rastogi, Jules Harings

2022Macromolecules17 citationsDOIOpen Access PDF

Abstract

H NMR spectroscopy and the effect on mechanical properties. The experiments reveal that upon heating in the superheated state of water, the pseudo-hexagonal phase dissolves at relatively low temperature and instantly crystallizes in a defected monoclinic phase that successively refines to a perfected monoclinic structure. The dissolution temperature of the pseudo-hexagonal phase of polyamide 6 is found to be dependent on the degree of crystal perfection originating from conformational disorder and misalignment of hydrogen bonding in the lattice, retrospectively, to the Brill transition temperature. The perfected monoclinic phase below the dissolution temperature can be preserved upon cooling but is plasticized by hydration of the amide moieties in the crystalline phase. The removal of water from the hydrated crystals, in the proximity of Brill transition temperature, strengthening the hydrogen bonding, occurs. Retrospectively, the most thermodynamically stable crystallographic phase is preserved and renders an increase in mechanical properties and dimensional stability of the product. The insight obtained on the influence of superheated water on the structural refinement of imperfected crystallographic states assists in polyamide 6 postprocessing strategies for enhanced performance.

Topics & Concepts

Monoclinic crystal systemCrystallizationDissolutionCrystallographyPolyamideHydrogen bondMaterials sciencePhase transitionPhase (matter)Crystal structureGlass transitionChemistryChemical engineeringPolymer chemistryMoleculePolymerThermodynamicsComposite materialOrganic chemistryEngineeringPhysicsPolymer crystallization and propertiesPolymer Nanocomposites and Propertiesbiodegradable polymer synthesis and properties