Chemical gradients in PIR foams as probed by ATR-FTIR analysis and consequences on fire resistance

Chemical gradients in PIR foams as probed by ATR-FTIR analysis and consequences on fire resistance

Taking into account numerous results from the literature, an in-depth exploratory study on the chemical gradients in the rise (or depth) direction was performed on polyisocyanurate rigid (PIR) foam insulation panels using ATR-FTIR spectroscopy. In particular, it was found that the isocyanurate/pheny...

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Autores principales: Joël Reignier, Françoise Méchin, Alexandru Sarbu
Formato: article
Lenguaje:EN
Publicado: Elsevier 2021
Materias:
Polyurethane
Polyisocyanurate
Foam
Infrared spectroscopy
Flame resistance
Chemical gradients
Polymers and polymer manufacture
TP1080-1185
Acceso en línea:https://doaj.org/article/9dfa644d369a4740a6bd030b23dfea77
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Sumario:Taking into account numerous results from the literature, an in-depth exploratory study on the chemical gradients in the rise (or depth) direction was performed on polyisocyanurate rigid (PIR) foam insulation panels using ATR-FTIR spectroscopy. In particular, it was found that the isocyanurate/phenyl ratio is a quick and effective technique for providing an indication of the level of trimer conversion within each sample. More importantly, a detailed analysis of the C–N stretching vibration of the isocyanurate ring as a function of depth revealed a linear decrease in the frequency peak maximum with the increase in the isocyanurate ratio for all investigated PIR foams. This result suggests for the first time that the position (frequency) of peak maximum (C–N stretching of isocyanurate ring) may be used to quantify the extent of isocyanurate formation without the issues linked to the use of absorbances. It is proposed that this reduction in the frequency of the C–N stretching vibration of isocyanurate ring reflects the decrease in hydrogen bonding between N–H of urethane group and CO within the isocyanurate ring when the isocyanurate content increases (lower mobility associated with higher level of cross-linking). The heterogeneity of the isocyanurate content was physically confirmed by investigating the flammability of the foam samples taken at different positions in the rise direction (z-axis).

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