Quantitative Water Uptake Study in Thin Nylon-6 Films with NMR Imaging

Reuvers, Njw Nico; Huinink, HP Henk; Fischer, H.; Adan, Ocg Olaf

doi:10.1021/ma202719x

Cited by 56 publications

(49 citation statements)

References 45 publications

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“…DSC measurements also show that exposure to water for 24 h does not lead to an increase in crystallinity. Circular pieces of the film are pasted onto microscope cover glasses for NMR measurements 20…”

Section: Methodsmentioning

confidence: 99%

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Water Plasticizes Only a Small Part of the Amorphous Phase in Nylon‐6

Reuvers

Huinink

Adan

2013

Macromol. Rapid Commun.

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It is known that Polyamide 6 absorbs water in its amorphous phase. The exact composition of the amorphous phase will determine the uptake process. The heterogeneity in the amorphous phase with respect to plasticization by water uptake is quantified in this paper using NMR relaxometry. It is shown that water occupies and plasticizes only a small part (∼6%) of the nylon matrix. This part is located in between the crystalline domains where polymer chain mobility is higher. At low moisture content (<4%) water molecules are tightly bound to the polymer and have the same dynamics. A highly mobile pool of guest-hydrogen nuclei is detected starting at a moisture content of 4%. Here, water is absorbed in clusters and the interaction between the polymer chains and water molecules decreases, leading to decoupling of the dynamics of water and polymer.

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Section: Methodsmentioning

confidence: 99%

“…An NMR setup in the GARField arrangement is used to measure the transverse signal decay 20, 21. The transverse relaxation is described by: …”

Section: Methodsmentioning

confidence: 99%

Water Plasticizes Only a Small Part of the Amorphous Phase in Nylon‐6

Reuvers

Huinink

Adan

2013

Macromol. Rapid Commun.

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“…For rubbery materials, it could already be shown that the use of the OW4 pulse sequence leads to a prolongation of the transverse decay compared with that obtained by the CPMG pulse sequence . This pulse sequence is also extensively used for the investigation of various protonated materials using the GARField (Gradient At Right angle to Field) magnet system …”

Section: Experimental Partmentioning

confidence: 99%

Single‐Sided NMR of Semicrystalline Polymers

Adams

Blümich

2013

Macromolecular Symposia

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Summary Morphological changes of large‐size semicrystalline polyethylene samples induced by different procedures such as annealing, aging, deformation, and interaction with solvents have been investigated non‐destructively by single‐sided NMR. The results are summarized and problems encountered in the characterisation of these polymer materials and the opportunities opened up by this innovative analytical method are discussed.

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“…This effect is closely related to the molecular weight of the PA segment: PAs are actually known to be particularly affected by water uptake due to the hydrophilic character of the amide moiety, with relevant influences on the mechanical properties of the polymer. 30,31 In this study, the weathering effect of both UV-visible radiation and water on PEBAs is investigated, simulating the exposure to environmental conditions. The results of tensile tests and DMA, integrated with physicochemical characterization data, 18 are important for the comprehension of the elastic and visco-elastic behaviour of PEBAs, in a wide temperature and frequency range.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of the mechanical behaviour of Telemark ski boots: Part I – materials characterization in use conditions

Natali

Todros

Venturato

et al. 2014

Proceedings of the Institution of Mechanical Engineers, Part P:

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This study reports the first part of the analysis for the evaluation of the mechanical behaviour of ski boots by means of an integrated approach that considers polymeric materials characterization, in Part I, and numerical structural analysis, in Part II. In the present Part I, different techniques are adopted to characterize the mechanical behaviour of the polymeric materials used for ski boots, to define the elastic, visco-elastic, temperature and weathering-dependent characteristics. Experimental data provide fundamental information on mechanical response, in particular taking into account the effect of the environmental conditions, due to temperature variation, ultraviolet radiation and water absorption, which are correlated to the definition of reliability and durability of the materials. In more detail, experimental results from tensile tests and dynamic mechanical analysis are reported, evaluating mechanical response and chemical conformation of the polymers. Materials properties are correlated with the specific use conditions and boot structure, to be able to evaluate and preserve overall performances and general safety requirements of ski boots. This activity represents a reference procedure for the evaluation of the material mechanical behaviour that must be considered within the structural analysis.

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Quantitative Water Uptake Study in Thin Nylon-6 Films with NMR Imaging

Cited by 56 publications

References 45 publications

Water Plasticizes Only a Small Part of the Amorphous Phase in Nylon‐6

Water Plasticizes Only a Small Part of the Amorphous Phase in Nylon‐6

Single‐Sided NMR of Semicrystalline Polymers

Evaluation of the mechanical behaviour of Telemark ski boots: Part I – materials characterization in use conditions

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