The Impact of Isocyanate Index and Filler Functionalities on the Performance of Flexible Foamed Polyurethane/Ground Tire Rubber Composites

Adam Olszewski; Paulina Kosmela; Adam Piasecki; Mateusz Barczewski; Aleksander Hejna

doi:10.3390/polym14245558

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Title

The Impact of Isocyanate Index and Filler Functionalities on the Performance of Flexible Foamed Polyurethane/Ground Tire Rubber Composites

Authors

Adam Olszewski
Paulina Kosmela
Adam Piasecki (WIMiFT) ^{[ 1 ][ 2.8 ][ P ]}
Mateusz Barczewski (WIM) ^{[ 2 ][ 2.8 ][ P ]}
Aleksander Hejna (WIM) ^{[ 2 ][ 2.9 ][ P ]}

^{[ 1 ]} Instytut Inżynierii Materiałowej, Wydział Inżynierii Materiałowej i Fizyki Technicznej, Politechnika Poznańska | ^{[ 2 ]} Instytut Technologii Materiałów, Wydział Inżynierii Mechanicznej, Politechnika Poznańska | ^{[ P ]} employee

Scientific discipline (Law 2.0)

[2.8] Materials engineering
[2.9] Mechanical engineering

Year of publication

2022

Published in

Polymers

Journal year: 2022 | Journal volume: vol. 14 | Journal number: iss. 24

Article type

scientific article

Publication language

english

Keywords

EN

polyurethane foam
ground tire rubber
rubber modification
surface activation
polymer composites
cellular structure
thermomechanical performance

Abstract

EN The structure and performance of polyurethane (PU) foams are strongly driven by the stoichiometry of the polyaddition reaction, quantitatively described by the isocyanate index. It determines the balance between isocyanate and hydroxyl groups in the reacting system and is affected by the introduction of additional functionalities originated, e.g., from applied fillers. Nevertheless, this issue is hardly taken into account in research works. Herein, the structure and performance of PU/ground tire rubber (GTR) composites differing in their isocyanate index (from 0.8 to 1.2) and prepared with and without considering the GTR functionalities in formulation development were investigated. Incorporating GTR into the PU matrix led to a reduction in average cell diameter (from 2 to 30% depending on the isocyanate index) compared to unfilled foams. However, formulation adjustments did not show a significant impact on cellular structure. The only decrease in open cell content was noted, from 10% for the 0.9 index to 40% for 1.2. Such changes were related to the increasing strength of the PU cellular structure able to maintain inside the increasing amount of carbon dioxide. On the other hand, considering hydroxyl values of GTR noticeably affected the thermomechanical performance of composites. The shift of glass transition temperature (Tg), even by 10 °C for 1.2 isocyanate index, enhanced the performance of materials, which was expressed in an 8–62% drop in the composite performance factor, pointing to the enhanced reinforcing effect resulting from filler incorporation. The stiffening of foams, related to the variations in PU segmental structure, also caused minor changes in the course of thermal degradation of PU/GTR composites due to the inferior thermal stability of hard segments. The obtained results provide important insights into the development of formulations of PU composites filled with materials containing reactive functional groups able to disrupt the stoichiometric balance of the polyaddition reaction.

Date of online publication

19.12.2022

Pages (from - to)

5558-1 - 5558-18

DOI

10.3390/polym14245558

URL

https://www.mdpi.com/2073-4360/14/24/5558

Comments

Article Number: 5558

License type

CC BY (attribution alone)