Ageing and Degradation of Multiphase Polymer Systems

Colin, Xavier; Teyssèdre, G.; Fois, Magali

doi:10.1002/9781119972020.ch21

Cited by 16 publications

(17 citation statements)

References 47 publications

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“…According to this scheme, aldehydes result exclusively from the β scission of PO° radicals (step VId). However, as the dissociation energy of their CH bond is significantly lower (≈368 kJ/mol) than in methylene groups (≈393 kJ/mol), aldehydes are highly sensitive to radical attacks. Therefore, their rapid oxidation leads to the formation of carboxylic acids, as proposed by many authors in the literature .…”

Section: Resultsmentioning

confidence: 99%

“…It must be recalled that thermal oxidation is a radical chain reaction initiated by the decomposition of its main propagation product: the hydroperoxide group (POOH), which is also the most instable product . Indeed, the dissociation energy of its OO bond is about 150 kJ/mol, against more than 325 kJ/mol for all other chemical bonds composing the polymer chain (including structural defects such as allylic CH bonds) . In its simplest form (i.e., in oxygen excess and in the absence of thermal and photochemical stabilizers), this reaction can be written such as:…”

Section: Introductionmentioning

confidence: 99%

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Thermo‐oxidative degradation of additive free polyethylene. Part I. Analysis of chemical modifications at molecular and macromolecular scales

Cruz

Schoors²,

Benzarti³

et al. 2016

J of Applied Polymer Sci

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The effects of thermal oxidation on the molecular and macromolecular structures of additive free PE were investigated between 100 °C and 140 °C in air in order to tentatively establish non‐empirical structure/property relationships. In the first part, the changes in POOH concentration were assessed by three different analytical methods: iodometry, modulated differential scanning calorimetry, and Fourier transform infrared (FTIR) spectrophotometry after SO2 treatment. All these methods provided very similar results until the end of the induction period, after which iodometry overestimated strongly POOH concentration because it titrates also other chemical species formed at high conversion ratios, namely double bonds. In parallel, the changes in carbonyl group concentration were determined by FTIR spectrophotometry after NH3 treatment. As the accumulation kinetics of ketones, aldehydes, and carboxylic acids were closely interrelated, the question of their actual formation mechanisms in the current thermal oxidation mechanistic scheme was raised. An alternative reaction pathway was proposed for the bimolecular decomposition of POOH. In the second part, the corresponding changes in weight and number average molecular masses were monitored by high temperature gel permeation chromatography equipped with a triple detection technology. As both quantities decreased dramatically from the beginning of exposure and their ratio Mw/Mn tends toward the asymptotic value of 2 and it was concluded that a “pure” chain scission process operated. Finally, as the number of chain scissions perfectly correlates, the concentration sum of aldehydes and their oxidation products (i.e., carboxylic acids), it was also concluded that these carbonyl groups result exclusively from the β scission of alkoxy radicals. © 2016 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2016, 133, 43287.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Thermo‐oxidative degradation of additive free polyethylene. Part I. Analysis of chemical modifications at molecular and macromolecular scales

Cruz

Schoors²,

Benzarti³

et al. 2016

J of Applied Polymer Sci

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“…The linear models obtained for the prediction of I CO , I OH , I PO , and v M of different polymers are represented by the following Eqs. (10)(11)(12)(13) with the reported statistical parameters: For each pair of descriptors, the value of the correlation coefficient (see Table S1 in the supplementary materials) of the four parameters studied was < 0.717, which leads to the independence of the selected descriptors. In addition, the multi-collinearity of the descriptors used in the MLR model can be evaluated by calculating their Inflation Variation Factors (VIF).…”

Section: Mlr Predictive Model (Linear Model)mentioning

confidence: 97%

“…11 It should be noted that photostabilization and aging of polymers are a complex problem to study in practice, as they usually take place slowly, and their service life generally reaches several decades. [12][13][14][15][16] Several studies on photostabilization of polymers are reported in the literature. [17][18][19][20][21][22] The photostabilization activities of polymers compounds were determined by monitoring the carbonyl, polyene and hydroxyl indices, as well as the variations in the viscosity average molecular weight with the duration exposure.…”

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confidence: 99%

QSPR studije karbonilnih, hidroksilnih, polienskih indeksa i prosječne molekulske težine polimera pod fotostabilizacijom pristupom ANN i MLR

et al. 2020

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One of the main disadvantages of the use of synthetic or semi-synthetic polymeric materials is their degradation and aging. The purpose of this study was to use artificial neural networks (ANN) and multiple linear regressions (MLR) to predict the carbonyl, hydroxyl, and polyene indices (ICO, IOH, and IOP), and viscosity average molecular weight (MV) of poly(vinyl chloride), polystyrene, and poly(methyl methacrylate). These physicochemical properties are considered fundamental during the study of photostabilization of polymers. From the five repeating units of monomers, the structure of the polymer studied is shown. Quantitative structure-property relationship (QSPR) models obtained by using relevant descriptors showed good predictability. Internal validation {R2, RMSE, and Q2LOO}, external validation {R2, RMSE, Q2pred, rm2, Δrm2, k, and k’}, and applicability domain were used to validate these models. The comparison of the results shows that the ANN models are more efficient than those of the MLR models. Accordingly, the QSPR model developed in this study provides excellent predictions, and can be used to predict ICO, IOH, IOP, and MV of polymers, particularly for those that have not been tested.

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“…L'oxydation du PEEK se produit sur les seuls groupes hydrocarbonés de l'unité monomère, c'est-à-dire sur les cycles aromatiques, malgré la très faible labilité des atomes d'H. En effet, l'énergie de dissociation de la liaison C-H aromatique est de l'ordre de 465 kJ.mol -1 , contre 393 et 378 kJ.mol -1 pour les liaisons C-H méthylénique et méthynique respectivement [1]. Au-delà de 400°C, l'oxydation serait principalement amorcée par la rupture des liaisons éther et cétone de l'unité monomère [2][3][4].…”

Section: Introductionunclassified

Analyse de la dégradation thermique du Poly(éther éther cétone)

Courvoisier

Bicaba

Colin

2017

Matériaux & Techniques

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La dégradation thermique du PEEK a été étudiée à l’état caoutchoutique dans de larges intervalles de température (entre 180 et 320 °C) et de pression partielle d’oxygène (entre 0,21 et 50 bars). Tout d’abord, les mécanismes de vieillissement thermique ont été analysés et élucidés par spectroscopie IRTF et par calorimétrie différentielle (DSC) sur des films de PEEK suffisamment minces (entre 10 et 60 μm d’épaisseur) pour s’affranchir totalement des effets de la diffusion d’oxygène. L’oxydation se produit sur les cycles aromatiques provoquant la croissance de cinq nouvelles bandes d’absorption IR centrées à 3650, 3525, 1780, 1740 et 1718 cm-1 et attribuées aux vibrations d’élongation des liaisons O–H du phénol et de l’acide benzoïque, et des liaisons C–O de l’anhydride benzoïque, du benzoate de phényle et de la fluorénone respectivement. De plus, l’oxydation conduit à une large prédominance de la réticulation sur les coupures de chaîne (augmentation de Tg) empêchant le recuit du PEEK, en particulier lorsque la température d’exposition est supérieure au pied du pic de fusion. Enfin, les conséquences de l’oxydation sur les propriétés élastiques ont été analysées et élucidées par micro-indentation sur des sections droites préalablement polies de plaquettes de PEEK de 3 mm d’épaisseur. Les variations du module d’Young et du taux de cristallinité se corrèlent parfaitement, vérifiant ainsi la relation de Tobolsky.

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Ageing and Degradation of Multiphase Polymer Systems

Cited by 16 publications

References 47 publications

Thermo‐oxidative degradation of additive free polyethylene. Part I. Analysis of chemical modifications at molecular and macromolecular scales

Thermo‐oxidative degradation of additive free polyethylene. Part I. Analysis of chemical modifications at molecular and macromolecular scales

QSPR studije karbonilnih, hidroksilnih, polienskih indeksa i prosječne molekulske težine polimera pod fotostabilizacijom pristupom ANN i MLR

Analyse de la dégradation thermique du Poly(éther éther cétone)

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